| slovo | definícia |
equation
(encz) | equation,rovnice n: [mat.] |
Equation
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
equation
(wn) | equation
n 1: a mathematical statement that two expressions are equal
2: a state of being essentially equal or equivalent; equally
balanced; "on a par with the best" [syn: equality,
equivalence, equation, par]
3: the act of regarding as equal [syn: equation, equating] |
| | podobné slovo | definícia |
algebraic equation
(encz) | algebraic equation,algebraická rovnice n: [mat.] |
difference equation
(encz) | difference equation,diferenční rovnice n: [mat.] |
differential equation
(encz) | differential equation,diferenciální rovnice n: [mat.] |
equation
(encz) | equation,rovnice n: [mat.] |
equation of exchange
(encz) | equation of exchange,rovnice směny [eko.] RNDr. Pavel Piskač |
equations
(encz) | equations,rovnice pl. Zdeněk Brož |
exponential equation
(encz) | exponential equation, n: |
inequation
(encz) | inequation,nerovnice n: [mat.] |
linear equation
(encz) | linear equation, n: |
ordinary differential equation
(encz) | ordinary differential equation,obyčejná diferenciální rovnice [mat.] |
partial differential equation
(encz) | partial differential equation,parciální diferenciální rovnice [mat.] |
personal equation
(encz) | personal equation, n: |
quadratic equation
(encz) | quadratic equation,kvadratická rovnice n: [mat.] Milan Svoboda |
reduced form equation
(encz) | reduced form equation, |
regression equation
(encz) | regression equation, n: |
simultaneous equations
(encz) | simultaneous equations,soustava rovnic Vít Profant |
structural equation
(encz) | structural equation, |
wave equation
(encz) | wave equation, n: |
Absolute equation
(gcide) | Absolute \Ab"so*lute\, a. [L. absolutus, p. p. of absolvere: cf.
F. absolu. See Absolve.]
1. Loosed from any limitation or condition; uncontrolled;
unrestricted; unconditional; as, absolute authority,
monarchy, sovereignty, an absolute promise or command;
absolute power; an absolute monarch.
[1913 Webster]
2. Complete in itself; perfect; consummate; faultless; as,
absolute perfection; absolute beauty.
[1913 Webster]
So absolute she seems,
And in herself complete. --Milton.
[1913 Webster]
3. Viewed apart from modifying influences or without
comparison with other objects; actual; real; -- opposed to
relative and comparative; as, absolute motion;
absolute time or space.
[1913 Webster]
Note: Absolute rights and duties are such as pertain to man
in a state of nature as contradistinguished from
relative rights and duties, or such as pertain to him
in his social relations.
[1913 Webster]
4. Loosed from, or unconnected by, dependence on any other
being; self-existent; self-sufficing.
[1913 Webster]
Note: In this sense God is called the Absolute by the Theist.
The term is also applied by the Pantheist to the
universe, or the total of all existence, as only
capable of relations in its parts to each other and to
the whole, and as dependent for its existence and its
phenomena on its mutually depending forces and their
laws.
[1913 Webster]
5. Capable of being thought or conceived by itself alone;
unconditioned; non-relative.
[1913 Webster]
Note: It is in dispute among philosopher whether the term, in
this sense, is not applied to a mere logical fiction or
abstraction, or whether the absolute, as thus defined,
can be known, as a reality, by the human intellect.
[1913 Webster]
To Cusa we can indeed articulately trace, word
and thing, the recent philosophy of the absolute.
--Sir W.
Hamilton.
[1913 Webster]
6. Positive; clear; certain; not doubtful. [R.]
[1913 Webster]
I am absolute 't was very Cloten. --Shak.
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7. Authoritative; peremptory. [R.]
[1913 Webster]
The peddler stopped, and tapped her on the head,
With absolute forefinger, brown and ringed. --Mrs.
Browning.
[1913 Webster]
8. (Chem.) Pure; unmixed; as, absolute alcohol.
[1913 Webster]
9. (Gram.) Not immediately dependent on the other parts of
the sentence in government; as, the case absolute. See
Ablative absolute, under Ablative.
[1913 Webster]
Absolute curvature (Geom.), that curvature of a curve of
double curvature, which is measured in the osculating
plane of the curve.
Absolute equation (Astron.), the sum of the optic and
eccentric equations.
Absolute space (Physics), space considered without relation
to material limits or objects.
Absolute terms. (Alg.), such as are known, or which do not
contain the unknown quantity. --Davies & Peck.
Absolute temperature (Physics), the temperature as measured
on a scale determined by certain general thermo-dynamic
principles, and reckoned from the absolute zero.
Absolute zero (Physics), the be ginning, or zero point, in
the scale of absolute temperature. It is equivalent to
-273[deg] centigrade or -459.4[deg] Fahrenheit.
[1913 Webster]
Syn: Positive; peremptory; certain; unconditional; unlimited;
unrestricted; unqualified; arbitrary; despotic;
autocratic.
[1913 Webster]Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Adequation
(gcide) | Adequation \Ad`e*qua"tion\, n. [L. adaequatio.]
The act of equalizing; act or result of making adequate; an
equivalent. [Obs.] --Bp. Barlow.
[1913 Webster] |
Biquadratic equation
(gcide) | Biquadratic \Bi`quad*rat"ic\, a. [Pref. bi- + quadratic: cf. F.
biquadratique.] (Math.)
Of or pertaining to the biquadrate, or fourth power.
[1913 Webster]
Biquadratic equation (Alg.), an equation of the fourth
degree, or an equation in some term of which the unknown
quantity is raised to the fourth power.
Biquadratic root of a number, the square root of the square
root of that number. Thus the square root of 81 is 9, and
the square root of 9 is 3, which is the biquadratic root
of 81. Hutton.
[1913 Webster] |
Construction of an equation
(gcide) | Construction \Con*struc"tion\, n. [L. constructio: cf. F.
construction.]
1. The process or art of constructing; the act of building;
erection; the act of devising and forming; fabrication;
composition.
[1913 Webster]
2. The form or manner of building or putting together the
parts of anything; structure; arrangement.
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An astrolabe of peculiar construction. --Whewell.
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3. (Gram.) The arrangement and connection of words in a
sentence; syntactical arrangement.
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Some particles . . . in certain constructions have
the sense of a whole sentence contained in them.
--Locke.
[1913 Webster]
4. The method of construing, interpreting, or explaining a
declaration or fact; an attributed sense or meaning;
understanding; explanation; interpretation; sense.
[1913 Webster]
Any person . . . might, by the sort of construction
that would be put on this act, become liable to the
penalties of treason. --Hallam.
[1913 Webster]
Strictly, the term [construction] signifies
determining the meaning and proper effect of
language by a consideration of the subject matter
and attendant circumstances in connection with the
words employed. --Abbott.
[1913 Webster]
Interpretation properly precedes construction, but
it does not go beyond the written text. --Parsons.
[1913 Webster]
Construction of an equation (Math.), the drawing of such
lines and figures as will represent geometrically the
quantities in the equation, and their relations to each
other.
Construction train (Railroad), a train for transporting men
and materials for construction or repairs.
[1913 Webster] |
Cubic equation
(gcide) | Cubic \Cu"bic\ (k?"b?k), Cubical \Cu"bic*al\ (-b?-kal), a. [L.
cubicus, Gr. ?????: cf. F. cubique. See Cube.]
1. Having the form or properties of a cube; contained, or
capable of being contained, in a cube.
[1913 Webster]
2. (Crystallog.) Isometric or monometric; as, cubic cleavage.
See Crystallization.
[1913 Webster]
Cubic equation, an equation in which the highest power of
the unknown quantity is a cube.
Cubic foot, a volume equivalent to a cubical solid which
measures a foot in each of its dimensions.
Cubic number, a number produced by multiplying a number
into itself, and that product again by the same number.
See Cube.
Cubical parabola (Geom.), two curves of the third degree,
one plane, and one on space of three dimensions.
[1913 Webster] |
Determinate equations
(gcide) | Determinate \De*ter"mi*nate\, a. [L. determinatus, p. p. of
determinare. See Determine.]
1. Having defined limits; not uncertain or arbitrary; fixed;
established; definite.
[1913 Webster]
Quantity of words and a determinate number of feet.
--Dryden.
[1913 Webster]
2. Conclusive; decisive; positive.
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The determinate counsel and foreknowledge of God.
--Acts ii. 23.
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3. Determined or resolved upon. [Obs.]
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My determinate voyage. --Shak.
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4. Of determined purpose; resolute. [Obs.]
[1913 Webster]
More determinate to do than skillful how to do.
--Sir P.
Sidney.
[1913 Webster]
Determinate inflorescence (Bot.), that in which the
flowering commences with the terminal bud of a stem, which
puts a limit to its growth; -- also called {centrifugal
inflorescence}.
Determinate problem (Math.), a problem which admits of a
limited number of solutions.
Determinate quantities, Determinate equations (Math.),
those that are finite in the number of values or
solutions, that is, in which the conditions of the problem
or equation determine the number.
[1913 Webster] |
Discussion of an equation
(gcide) | Discussion \Dis*cus"sion\, n. [L. discussio a shaking,
examination, discussion: cf. F. discussion.]
1. The act or process of discussing by breaking up, or
dispersing, as a tumor, or the like. [archaic]
[1913 Webster]
2. The act of discussing or exchanging reasons; examination
by argument; debate; disputation; agitation.
[1913 Webster]
The liberty of discussion is the great safeguard of
all other liberties. --Macaulay.
[1913 Webster]
Discussion of a problem or Discussion of an equation
(Math.), the operation of assigning different reasonable
values to the arbitrary quantities and interpreting the
result. --Math. Dict.
[1913 Webster] |
Equation box
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equation clock
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equation of a curve
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equation of condition
(gcide) | Condition \Con*di"tion\, n. [F., fr. L. conditio (better
condicio) agreement, compact, condition; con- + a root
signifying to show, point out, akin to dicere to say, dicare
to proclaim, dedicate. See Teach, Token.]
1. Mode or state of being; state or situation with regard to
external circumstances or influences, or to physical or
mental integrity, health, strength, etc.; predicament;
rank; position, estate.
[1913 Webster]
I am in my condition
A prince, Miranda; I do think, a king. --Shak.
[1913 Webster]
And O, what man's condition can be worse
Than his whom plenty starves and blessings curse?
--Cowley.
[1913 Webster]
The new conditions of life. --Darwin.
[1913 Webster]
2. Essential quality; property; attribute.
[1913 Webster]
It seemed to us a condition and property of divine
powers and beings to be hidden and unseen to others.
--Bacon.
[1913 Webster]
3. Temperament; disposition; character. [Obs.]
[1913 Webster]
The condition of a saint and the complexion of a
devil. --Shak.
[1913 Webster]
4. That which must exist as the occasion or concomitant of
something else; that which is requisite in order that
something else should take effect; an essential
qualification; stipulation; terms specified.
[1913 Webster]
I had as lief take her dowry with this condition, to
be whipped at the high cross every morning. --Shak.
[1913 Webster]
Many are apt to believe remission of sins, but they
believe it without the condition of repentance.
--Jer. Taylor.
[1913 Webster]
5. (Law) A clause in a contract, or agreement, which has for
its object to suspend, to defeat, or in some way to
modify, the principal obligation; or, in case of a will,
to suspend, revoke, or modify a devise or bequest. It is
also the case of a future uncertain event, which may or
may not happen, and on the occurrence or non-occurrence of
which, the accomplishment, recission, or modification of
an obligation or testamentary disposition is made to
depend. --Blount. Tomlins. Bouvier. Wharton.
[1913 Webster]
Equation of condition. (Math.) See under Equation.
On condition or Upon condition (that), used for if in
introducing conditional sentences. "Upon condition thou
wilt swear to pay him tribute . . . thou shalt be placed
as viceroy under him." --Shak.
Conditions of sale, the terms on which it is proposed to
sell property by auction; also, the instrument containing
or expressing these terms.
Syn: State; situation; circumstances; station; case; mode;
plight; predicament; stipulation; qualification;
requisite; article; provision; arrangement. See State.
[1913 Webster] |
Equation of equinoxes
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equation of payments
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equation of the center
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equation of time
(gcide) | Time \Time\, n.; pl. Times. [OE. time, AS. t[imac]ma, akin to
t[imac]d time, and to Icel. t[imac]mi, Dan. time an hour, Sw.
timme. [root]58. See Tide, n.]
1. Duration, considered independently of any system of
measurement or any employment of terms which designate
limited portions thereof.
[1913 Webster]
The time wasteth [i. e. passes away] night and day.
--Chaucer.
[1913 Webster]
I know of no ideas . . . that have a better claim to
be accounted simple and original than those of space
and time. --Reid.
[1913 Webster]
2. A particular period or part of duration, whether past,
present, or future; a point or portion of duration; as,
the time was, or has been; the time is, or will be.
[1913 Webster]
God, who at sundry times and in divers manners spake
in time past unto the fathers by the prophets.
--Heb. i. 1.
[1913 Webster]
3. The period at which any definite event occurred, or person
lived; age; period; era; as, the Spanish Armada was
destroyed in the time of Queen Elizabeth; -- often in the
plural; as, ancient times; modern times.
[1913 Webster]
4. The duration of one's life; the hours and days which a
person has at his disposal.
[1913 Webster]
Believe me, your time is not your own; it belongs to
God, to religion, to mankind. --Buckminster.
[1913 Webster]
5. A proper time; a season; an opportunity.
[1913 Webster]
There is . . . a time to every purpose. --Eccl. iii.
1.
[1913 Webster]
The time of figs was not yet. --Mark xi. 13.
[1913 Webster]
6. Hour of travail, delivery, or parturition.
[1913 Webster]
She was within one month of her time. --Clarendon.
[1913 Webster]
7. Performance or occurrence of an action or event,
considered with reference to repetition; addition of a
number to itself; repetition; as, to double cloth four
times; four times four, or sixteen.
[1913 Webster]
Summers three times eight save one. --Milton.
[1913 Webster]
8. The present life; existence in this world as contrasted
with immortal life; definite, as contrasted with infinite,
duration.
[1913 Webster]
Till time and sin together cease. --Keble.
[1913 Webster]
9. (Gram.) Tense.
[1913 Webster]
10. (Mus.) The measured duration of sounds; measure; tempo;
rate of movement; rhythmical division; as, common or
triple time; the musician keeps good time.
[1913 Webster]
Some few lines set unto a solemn time. --Beau. &
Fl.
[1913 Webster]
Note: Time is often used in the formation of compounds,
mostly self-explaining; as, time-battered,
time-beguiling, time-consecrated, time-consuming,
time-enduring, time-killing, time-sanctioned,
time-scorner, time-wasting, time-worn, etc.
[1913 Webster]
Absolute time, time irrespective of local standards or
epochs; as, all spectators see a lunar eclipse at the same
instant of absolute time.
Apparent time, the time of day reckoned by the sun, or so
that 12 o'clock at the place is the instant of the transit
of the sun's center over the meridian.
Astronomical time, mean solar time reckoned by counting the
hours continuously up to twenty-four from one noon to the
next.
At times, at distinct intervals of duration; now and then;
as, at times he reads, at other times he rides.
Civil time, time as reckoned for the purposes of common
life in distinct periods, as years, months, days, hours,
etc., the latter, among most modern nations, being divided
into two series of twelve each, and reckoned, the first
series from midnight to noon, the second, from noon to
midnight.
Common time (Mil.), the ordinary time of marching, in which
ninety steps, each twenty-eight inches in length, are
taken in one minute.
Equation of time. See under Equation, n.
In time.
(a) In good season; sufficiently early; as, he arrived in
time to see the exhibition.
(b) After a considerable space of duration; eventually;
finally; as, you will in time recover your health and
strength.
Mean time. See under 4th Mean.
Quick time (Mil.), time of marching, in which one hundred
and twenty steps, each thirty inches in length, are taken
in one minute.
Sidereal time. See under Sidereal.
Standard time, the civil time that has been established by
law or by general usage over a region or country. In
England the standard time is Greenwich mean solar time. In
the United States and Canada four kinds of standard time
have been adopted by the railroads and accepted by the
people, viz., Eastern, Central, Mountain, and Pacific
time, corresponding severally to the mean local times of
the 75th, 90th, 105th, and 120th meridians west from
Greenwich, and being therefore five, six, seven, and eight
hours slower than Greenwich time.
Time ball, a ball arranged to drop from the summit of a
pole, to indicate true midday time, as at Greenwich
Observatory, England. --Nichol.
Time bargain (Com.), a contract made for the sale or
purchase of merchandise, or of stock in the public funds,
at a certain time in the future.
Time bill. Same as Time-table. [Eng.]
Time book, a book in which is kept a record of the time
persons have worked.
Time detector, a timepiece provided with a device for
registering and indicating the exact time when a watchman
visits certain stations in his beat.
Time enough, in season; early enough. "Stanly at Bosworth
field, . . . came time enough to save his life." --Bacon.
Time fuse, a fuse, as for an explosive projectile, which
can be so arranged as to ignite the charge at a certain
definite interval after being itself ignited.
Time immemorial, or Time out of mind. (Eng. Law) See
under Immemorial.
Time lock, a lock having clockwork attached, which, when
wound up, prevents the bolt from being withdrawn when
locked, until a certain interval of time has elapsed.
Time of day, salutation appropriate to the times of the
day, as "good morning," "good evening," and the like;
greeting.
To kill time. See under Kill, v. t.
To make time.
(a) To gain time.
(b) To occupy or use (a certain) time in doing something;
as, the trotting horse made fast time.
To move against time, To run against time, or {To go
against time}, to move, run, or go a given distance without a
competitor, in the quickest possible time; or, to
accomplish the greatest distance which can be passed over
in a given time; as, the horse is to run against time.
True time.
(a) Mean time as kept by a clock going uniformly.
(b) (Astron.) Apparent time as reckoned from the transit
of the sun's center over the meridian.
[1913 Webster]
[1913 Webster]Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equation watch
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equational box
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Equations of condition
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Exponential equation
(gcide) | Exponential \Ex`po*nen"tial\, a. [Cf. F. exponentiel.]
1. Pertaining to exponents; involving variable exponents; as,
an exponential expression; exponential calculus; an
exponential function.
[1913 Webster]
2. changing over time in an exponential manner, i. e.
increasing or decreasing by a fixed ratio for each unit of
time; as, exponential growth; exponential decay.
[PJC]
Note:
Exponential growth is characteristic of bacteria and other
living populations in circumstances where the conditions
of growth are favorable, and all required nutrients are
plentiful. For example, the bacterium Escherichia coli
in rich media may double in number every 20 minutes until
one of the nutrients becomes exhausted or waste products
begin to inhibit growth. Many fascinating thought
experiments are proposed on the theme of exponential
growth. One may calculate, for example how long it would
take the progeny of one Escherichia coli to equal the
mass of the known universe if it multiplied unimpeded at
such a rate. The answer, assuming the equivalent of
10^80 hydrogen atoms in the universe, is less than three
days. Exponential increases in a quantity can be
surprising, and this principle is often used by banks to
make investment at a certain rate of interest seem to be
very profitable over time.
Exponential decay is exhibited by decay of radioactive
materials and some chemical reactions (first order
reactions), in which one-half of the initial quantity of
radioactive element (or chemical substance) is lost for
each lapse of a characteristic time called the
half-life.
[PJC]
Exponential curve, a curve whose nature is defined by means
of an exponential equation.
Exponential equation, an equation which contains an
exponential quantity, or in which the unknown quantity
enters as an exponent.
Exponential quantity (Math.), a quantity whose exponent is
unknown or variable, as a^x.
Exponential series, a series derived from the development
of exponential equations or quantities.
[1913 Webster] |
Identical equation
(gcide) | Identical \I*den"tic*al\, a. [Cf. F. identique. See Identity.]
1. The same; the selfsame; the very same; not different; as,
the identical person or thing.
[1913 Webster]
I can not remember a thing that happened a year ago,
without a conviction . . . that I, the same
identical person who now remember that event, did
then exist. --Reid.
[1913 Webster]
2. Uttering sameness or the same truth; expressing in the
predicate what is given, or obviously implied, in the
subject; tautological.
[1913 Webster]
When you say body is solid, I say that you make an
identical proposition, because it is impossible to
have the idea of body without that of solidity.
--Fleming.
[1913 Webster]
Identical equation (Alg.), an equation which is true for
all values of the algebraic symbols which enter into it.
[1913 Webster] Identic |
Inadequation
(gcide) | Inadequation \In*ad`e*qua"tion\, n.
Lack of exact correspondence. [Obs.] --Puller.
[1913 Webster] |
Incomplete equation
(gcide) | Incomplete \In`com*plete"\, a. [L. incompletus: cf. F.
incomplet. See In- not, and Complete.]
[1913 Webster]
1. Not complete; not filled up; not finished; not having all
its parts, or not having them all adjusted; imperfect;
defective.
[1913 Webster]
A most imperfect and incomplete divine. --Milton.
[1913 Webster]
2. (Bot.) Wanting any of the usual floral organs; -- said of
a flower.
[1913 Webster]
Incomplete equation (Alg.), an equation some of whose terms
are wanting; or one in which the coefficient of some one
or more of the powers of the unknown quantity is equal to
0.
[1913 Webster] |
Indeterminate equation
(gcide) | Indeterminate \In`de*ter"mi*nate\, a. [L. indeterminatus.]
Not determinate; not certain or fixed; indefinite; not
precise; as, an indeterminate number of years. --Paley.
[1913 Webster]
Indeterminate analysis (Math.), that branch of analysis
which has for its object the solution of indeterminate
problems.
Indeterminate coefficients (Math.), coefficients
arbitrarily assumed for convenience of calculation, or to
facilitate some artifice of analysis. Their values are
subsequently determined.
Indeterminate equation (Math.), an equation in which the
unknown quantities admit of an infinite number of values,
or sets of values. A group of equations is indeterminate
when it contains more unknown quantities than there are
equations.
Indeterminate inflorescence (Bot.), a mode of inflorescence
in which the flowers all arise from axillary buds, the
terminal bud going on to grow and sometimes continuing the
stem indefinitely; -- called also {acropetal
inflorescence}, botryose inflorescence, {centripetal
inflorescence}, and indefinite inflorescence. --Gray.
Indeterminate problem (Math.), a problem which admits of an
infinite number of solutions, or one in which there are
fewer imposed conditions than there are unknown or
required results.
Indeterminate quantity (Math.), a quantity which has no
fixed value, but which may be varied in accordance with
any proposed condition.
Indeterminate series (Math.), a series whose terms proceed
by the powers of an indeterminate quantity, sometimes also
with indeterminate exponents, or indeterminate
coefficients. -- In`de*ter"mi*nate*ly adv. --
In`de*ter"mi*nate*ness, n.
[1913 Webster] |
Inequation
(gcide) | Inequation \In`e*qua"tion\, n. (Math.)
An inequality.
[1913 Webster] |
Intrinsic equation of a curve
(gcide) | Intrinsic \In*trin"sic\ ([i^]n*tr[i^]n"s[i^]k), a. [L.
intrinsecus inward, on the inside; intra within + secus
otherwise, beside; akin to E. second: cf. F. intrins[`e]que.
See Inter-, Second, and cf. Extrinsic.]
[1913 Webster]
1. Inward; internal; hence, true; genuine; real; essential;
inherent; not merely apparent or accidental; -- opposed to
extrinsic; as, the intrinsic value of gold or silver;
the intrinsic merit of an action; the intrinsic worth or
goodness of a person.
[1913 Webster]
He was better qualified than they to estimate justly
the intrinsic value of Grecian philosophy and
refinement. --I. Taylor.
[1913 Webster]
2. (Anat.) Included wholly within an organ or limb, as
certain groups of muscles; -- opposed to extrinsic.
[1913 Webster]
Intrinsic energy of a body (Physics), the work it can do in
virtue of its actual condition, without any supply of
energy from without.
Intrinsic equation of a curve (Geom.), the equation which
expresses the relation which the length of a curve,
measured from a given point of it, to a movable point, has
to the angle which the tangent to the curve at the movable
point makes with a fixed line.
Intrinsic value. See the Note under Value, n.
Syn: Inherent; innate; natural; real; genuine.
[1913 Webster] |
Lateral equation
(gcide) | Lateral \Lat"er*al\, a. [L. lateralis, fr. latus, lateris, side:
cf. F. lat['e]ral.]
1. Of or pertaining to the sides; as, the lateral walls of a
house; the lateral branches of a tree.
[1913 Webster]
2. (Anat.) Lying at, or extending toward, the side; away from
the mesial plane; external; -- opposed to mesial.
[1913 Webster]
3. Directed to the side; as, a lateral view of a thing.
[1913 Webster]
Lateral cleavage (Crystallog.), cleavage parallel to the
lateral planes.
Lateral equation (Math.), an equation of the first degree.
[Obs.]
Lateral line (Anat.), in fishes, a line of sensory organs
along either side of the body, often marked by a distinct
line of color.
Lateral pressure or stress (Mech.), a pressure or stress
at right angles to the length, as of a beam or bridge; --
distinguished from longitudinal pressure or stress.
Lateral strength (Mech.), strength which resists a tendency
to fracture arising from lateral pressure.
Lateral system (Bridge Building), the system of horizontal
braces (as between two vertical trusses) by which lateral
stiffness is secured.
[1913 Webster] lateral |
Linear differential equation
(gcide) | Linear \Lin"e*ar\ (l[i^]n"[-e]*[~e]r), a. [L. linearis,
linearius, fr. linea line: cf. F. lin['e]aire. See 3d
Line.]
1. Of or pertaining to a line; consisting of lines; in a
straight direction; lineal.
[1913 Webster]
2. (Bot.) Like a line; narrow; of the same breadth
throughout, except at the extremities; as, a linear leaf.
[1913 Webster]
3. Thinking in a step-by-step analytical and logical fashion;
contrasted with holistic, i.e. thinking in terms of
complex interrelated patterns; as, linear thinkers.
[PJC]
Linear thinkers concluded that by taking the world
apart, the actions of people were more predictable
and controllable. --David Morris
(Conference
presentation,
Fairfield
University,
October 31,
1997)
Linear differential equation (Math.), an equation which is
of the first degree, when the expression which is equated
to zero is regarded as a function of the dependent
variable and its differential coefficients.
Linear equation (Math.), an equation of the first degree
between two variables; -- so called because every such
equation may be considered as representing a right line.
Linear measure, the measurement of length.
Linear numbers (Math.), such numbers as have relation to
length only: such is a number which represents one side of
a plane figure. If the plane figure is square, the linear
figure is called a root.
Linear problem (Geom.), a problem which may be solved
geometrically by the use of right lines alone.
Linear transformation (Alg.), a change of variables where
each variable is replaced by a function of the first
degree in the new variable.
[1913 Webster] |
Linear equation
(gcide) | Linear \Lin"e*ar\ (l[i^]n"[-e]*[~e]r), a. [L. linearis,
linearius, fr. linea line: cf. F. lin['e]aire. See 3d
Line.]
1. Of or pertaining to a line; consisting of lines; in a
straight direction; lineal.
[1913 Webster]
2. (Bot.) Like a line; narrow; of the same breadth
throughout, except at the extremities; as, a linear leaf.
[1913 Webster]
3. Thinking in a step-by-step analytical and logical fashion;
contrasted with holistic, i.e. thinking in terms of
complex interrelated patterns; as, linear thinkers.
[PJC]
Linear thinkers concluded that by taking the world
apart, the actions of people were more predictable
and controllable. --David Morris
(Conference
presentation,
Fairfield
University,
October 31,
1997)
Linear differential equation (Math.), an equation which is
of the first degree, when the expression which is equated
to zero is regarded as a function of the dependent
variable and its differential coefficients.
Linear equation (Math.), an equation of the first degree
between two variables; -- so called because every such
equation may be considered as representing a right line.
Linear measure, the measurement of length.
Linear numbers (Math.), such numbers as have relation to
length only: such is a number which represents one side of
a plane figure. If the plane figure is square, the linear
figure is called a root.
Linear problem (Geom.), a problem which may be solved
geometrically by the use of right lines alone.
Linear transformation (Alg.), a change of variables where
each variable is replaced by a function of the first
degree in the new variable.
[1913 Webster] |
Literal equation
(gcide) | Literal \Lit"er*al\ (l[i^]t"[~e]r*al), a. [F. lit['e]ral,
litt['e]ral, L. litteralis, literalis, fr. littera, litera, a
letter. See Letter.]
1. According to the letter or verbal expression; real; not
figurative or metaphorical; as, the literal meaning of a
phrase.
[1913 Webster]
It hath but one simple literal sense whose light the
owls can not abide. --Tyndale.
[1913 Webster]
2. Following the letter or exact words; not free.
[1913 Webster]
A middle course between the rigor of literal
translations and the liberty of paraphrasts.
--Hooker.
[1913 Webster]
3. Consisting of, or expressed by, letters.
[1913 Webster]
The literal notation of numbers was known to
Europeans before the ciphers. --Johnson.
[1913 Webster]
4. Giving a strict or literal construction; unimaginative;
matter-of-fact; -- applied to persons.
[1913 Webster]
Literal contract (Law), a contract of which the whole
evidence is given in writing. --Bouvier.
Literal equation (Math.), an equation in which known
quantities are expressed either wholly or in part by means
of letters; -- distinguished from a numerical equation.
[1913 Webster] |
Normal equation
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
[1913 Webster] |
Normal equations
(gcide) | Normal \Nor"mal\ (n[^o]r"mal), a. [L. normalis, fr. norma rule,
pattern, carpenter's square; prob. akin to noscere to know;
cf. Gr. gnw`rimos well known, gnw`mwn gnomon, also,
carpenter's square: cf. F. normal. See Known, and cf.
Abnormal, Enormous.]
[1913 Webster]
1. According to an established norm, rule, or principle;
conformed to a type, standard, or regular form; performing
the proper functions; not abnormal; regular; natural;
analogical.
[1913 Webster]
Deviations from the normal type. --Hallam.
[1913 Webster]
2. (Geom.) According to a square or rule; perpendicular;
forming a right angle; as, a line normal to the base.
Specifically: Of or pertaining to a normal.
[1913 Webster]
3. (Chem.) Standard; original; exact; typical. Specifically:
(a) (Quantitative Analysis) Denoting a solution of such
strength that every cubic centimeter contains the same
number of milligrams of the element in question as the
number of its molecular weight.
(b) (Chem.) Denoting certain hypothetical compounds, as
acids from which the real acids are obtained by
dehydration; thus, normal sulphuric acid and normal
nitric acid are respectively S(OH)6, and N(OH)5.
(c) (Organ. Chem.) Denoting that series of hydrocarbons in
which no carbon atom is bound to more than two other
carbon atoms; as, normal pentane, hexane, etc. Cf.
Iso-.
[1913 Webster]
Normal equations (Method of Least Squares), a set of
equations of the first degree equal in number to the
number of unknown quantities, and derived from the
observations by a specified process. The solution of the
normal equations gives the most probable values of the
unknown quantities.
Normal group (Geol.), a group of rocks taken as a standard.
--Lyell.
Normal place (of a planet or comet) (Astron.), the apparent
place in the heavens of a planet or comet at a specified
time, the place having been determined by a considerable
number of observations, extending perhaps over many days,
and so combined that the accidental errors of observation
have largely balanced each other.
Normal school, a school whose methods of instruction are to
serve as a model for imitation; an institution for the
training of teachers.
[1913 Webster]
Syn: Normal, Regular, Ordinary.
Usage: Regular and ordinary are popular terms of well-known
signification; normal has now a more specific sense,
arising out of its use in science. A thing is normal,
or in its normal state, when strictly conformed to
those principles of its constitution which mark its
species or to the standard of a healthy and natural
condition. It is abnormal when it departs from those
principles.
[1913 Webster] |
Numerical equation
(gcide) | Numeric \Nu*mer"ic\, Numerical \Nu*mer"ic*al\, a. [Cf. F.
num['e]rique. See Number, n.]
[1913 Webster]
1. Belonging to number; denoting number; consisting in
numbers; expressed by numbers, and not letters; as,
numerical characters; a numerical equation; a numerical
statement.
[1913 Webster]
Note: Numerical, as opposed to algebraical, is used to
denote a value irrespective of its sign; thus, -5 is
numerically greater than -3, though algebraically less.
[1913 Webster]
2. The same in number; hence, identically the same;
identical; as, the same numerical body. [Obs.] --South.
[1913 Webster]
Would to God that all my fellow brethren, which with
me bemoan the loss of their books, . . . might
rejoice for the recovery thereof, though not the
same numerical volumes. --Fuller.
[1913 Webster]
3. relating to or having ability to think in or work with
numbers; as, tests for rating numerical aptitude.
Contrasted with verbal.
Syn: mathematical.
[WordNet 1.5]
Numerical equation (Alg.), an equation which has all the
quantities except the unknown expressed in numbers; --
distinguished from literal equation.
Numerical value of an equation or expression, that deduced
by substituting numbers for the letters, and reducing.
[1913 Webster] |
Order of a differential equation
(gcide) | Order \Or"der\, n. [OE. ordre, F. ordre, fr. L. ordo, ordinis.
Cf. Ordain, Ordinal.]
[1913 Webster]
1. Regular arrangement; any methodical or established
succession or harmonious relation; method; system; as:
(a) Of material things, like the books in a library.
(b) Of intellectual notions or ideas, like the topics of a
discource.
(c) Of periods of time or occurrences, and the like.
[1913 Webster]
The side chambers were . . . thirty in order.
--Ezek. xli.
6.
[1913 Webster]
Bright-harnessed angels sit in order
serviceable. --Milton.
[1913 Webster]
Good order is the foundation of all good things.
--Burke.
[1913 Webster]
2. Right arrangement; a normal, correct, or fit condition;
as, the house is in order; the machinery is out of order.
--Locke.
[1913 Webster]
3. The customary mode of procedure; established system, as in
the conduct of debates or the transaction of business;
usage; custom; fashion. --Dantiel.
[1913 Webster]
And, pregnant with his grander thought,
Brought the old order into doubt. --Emerson.
[1913 Webster]
4. Conformity with law or decorum; freedom from disturbance;
general tranquillity; public quiet; as, to preserve order
in a community or an assembly.
[1913 Webster]
5. That which prescribes a method of procedure; a rule or
regulation made by competent authority; as, the rules and
orders of the senate.
[1913 Webster]
The church hath authority to establish that for an
order at one time which at another time it may
abolish. --Hooker.
[1913 Webster]
6. A command; a mandate; a precept; a direction.
[1913 Webster]
Upon this new fright, an order was made by both
houses for disarming all the papists in England.
--Clarendon.
[1913 Webster]
7. Hence: A commission to purchase, sell, or supply goods; a
direction, in writing, to pay money, to furnish supplies,
to admit to a building, a place of entertainment, or the
like; as, orders for blankets are large.
[1913 Webster]
In those days were pit orders -- beshrew the
uncomfortable manager who abolished them. --Lamb.
[1913 Webster]
8. A number of things or persons arranged in a fixed or
suitable place, or relative position; a rank; a row; a
grade; especially, a rank or class in society; a group or
division of men in the same social or other position;
also, a distinct character, kind, or sort; as, the higher
or lower orders of society; talent of a high order.
[1913 Webster]
They are in equal order to their several ends.
--Jer. Taylor.
[1913 Webster]
Various orders various ensigns bear. --Granville.
[1913 Webster]
Which, to his order of mind, must have seemed little
short of crime. --Hawthorne.
[1913 Webster]
9. A body of persons having some common honorary distinction
or rule of obligation; esp., a body of religious persons
or aggregate of convents living under a common rule; as,
the Order of the Bath; the Franciscan order.
[1913 Webster]
Find a barefoot brother out,
One of our order, to associate me. --Shak.
[1913 Webster]
The venerable order of the Knights Templars. --Sir
W. Scott.
[1913 Webster]
10. An ecclesiastical grade or rank, as of deacon, priest, or
bishop; the office of the Christian ministry; -- often
used in the plural; as, to take orders, or to take holy
orders, that is, to enter some grade of the ministry.
[1913 Webster]
11. (Arch.) The disposition of a column and its component
parts, and of the entablature resting upon it, in
classical architecture; hence (as the column and
entablature are the characteristic features of classical
architecture) a style or manner of architectural
designing.
[1913 Webster]
Note: The Greeks used three different orders, easy to
distinguish, Doric, Ionic, and Corinthian. The Romans
added the Tuscan, and changed the Doric so that it is
hardly recognizable, and also used a modified
Corinthian called Composite. The Renaissance writers on
architecture recognized five orders as orthodox or
classical, -- Doric (the Roman sort), Ionic, Tuscan,
Corinthian, and Composite. See Illust. of Capital.
[1913 Webster]
12. (Nat. Hist.) An assemblage of genera having certain
important characters in common; as, the Carnivora and
Insectivora are orders of Mammalia.
[1913 Webster]
Note: The Linnaean artificial orders of plants rested mainly
on identity in the numer of pistils, or agreement in
some one character. Natural orders are groups of genera
agreeing in the fundamental plan of their flowers and
fruit. A natural order is usually (in botany)
equivalent to a family, and may include several tribes.
[1913 Webster]
13. (Rhet.) The placing of words and members in a sentence in
such a manner as to contribute to force and beauty or
clearness of expression.
[1913 Webster]
14. (Math.) Rank; degree; thus, the order of a curve or
surface is the same as the degree of its equation.
[1913 Webster]
Artificial order or Artificial system. See {Artificial
classification}, under Artificial, and Note to def. 12
above.
Close order (Mil.), the arrangement of the ranks with a
distance of about half a pace between them; with a
distance of about three yards the ranks are in {open
order}.
The four Orders, The Orders four, the four orders of
mendicant friars. See Friar. --Chaucer.
General orders (Mil.), orders issued which concern the
whole command, or the troops generally, in distinction
from special orders.
Holy orders.
(a) (Eccl.) The different grades of the Christian
ministry; ordination to the ministry. See def. 10
above.
(b) (R. C. Ch.) A sacrament for the purpose of conferring
a special grace on those ordained.
In order to, for the purpose of; to the end; as means to.
The best knowledge is that which is of greatest use
in order to our eternal happiness. --Tillotson.
Minor orders (R. C. Ch.), orders beneath the diaconate in
sacramental dignity, as acolyte, exorcist, reader,
doorkeeper.
Money order. See under Money.
Natural order. (Bot.) See def. 12, Note.
Order book.
(a) A merchant's book in which orders are entered.
(b) (Mil.) A book kept at headquarters, in which all
orders are recorded for the information of officers
and men.
(c) A book in the House of Commons in which proposed
orders must be entered. [Eng.]
Order in Council, a royal order issued with and by the
advice of the Privy Council. [Great Britain]
Order of battle (Mil.), the particular disposition given to
the troops of an army on the field of battle.
Order of the day, in legislative bodies, the special
business appointed for a specified day.
Order of a differential equation (Math.), the greatest
index of differentiation in the equation.
Sailing orders (Naut.), the final instructions given to the
commander of a ship of war before a cruise.
Sealed orders, orders sealed, and not to be opened until a
certain time, or arrival at a certain place, as after a
ship is at sea.
Standing order.
(a) A continuing regulation for the conduct of
parliamentary business.
(b) (Mil.) An order not subject to change by an officer
temporarily in command.
To give order, to give command or directions. --Shak.
To take order for, to take charge of; to make arrangements
concerning.
[1913 Webster]
Whiles I take order for mine own affairs. --Shak.
[1913 Webster]
Syn: Arrangement; management. See Direction.
[1913 Webster] |
Personal equation
(gcide) | Personal \Per"son*al\ (p[~e]r"s[u^]n*al), a. [L. personalis: cf.
F. personnel.]
1. Pertaining to human beings as distinct from things.
[1913 Webster]
Every man so termed by way of personal difference.
--Hooker.
[1913 Webster]
2. Of or pertaining to a particular person; relating to, or
affecting, an individual, or each of many individuals;
peculiar or proper to private concerns; not public or
general; as, personal comfort; personal desire.
[1913 Webster]
The words are conditional, -- If thou doest well, --
and so personal to Cain. --Locke.
[1913 Webster]
3. Pertaining to the external or bodily appearance;
corporeal; as, personal charms. --Addison.
[1913 Webster]
4. Done in person; without the intervention of another.
"Personal communication." --Fabyan.
[1913 Webster]
The immediate and personal speaking of God. --White.
[1913 Webster]
5. Relating to an individual, his character, conduct,
motives, or private affairs, in an invidious and offensive
manner; as, personal reflections or remarks.
[1913 Webster]
6. (Gram.) Denoting person; as, a personal pronoun.
[1913 Webster]
Personal action (Law), a suit or action by which a man
claims a debt or personal duty, or damages in lieu of it;
or wherein he claims satisfaction in damages for an injury
to his person or property, or the specific recovery of
goods or chattels; -- opposed to real action.
Personal equation. (Astron.) See under Equation.
Personal estate or Personal property (Law), movables;
chattels; -- opposed to real estate or real property.
It usually consists of things temporary and movable,
including all subjects of property not of a freehold
nature.
Personal identity (Metaph.), the persistent and continuous
unity of the individual person, which is attested by
consciousness.
Personal pronoun (Gram.), one of the pronouns I, thou,
he, she, it, and their plurals.
Personal representatives (Law), the executors or
administrators of a person deceased.
Personal rights, rights appertaining to the person; as, the
rights of a personal security, personal liberty, and
private property.
Personal tithes. See under Tithe.
Personal verb (Gram.), a verb which is modified or
inflected to correspond with the three persons.
[1913 Webster]Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
[1913 Webster]
Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
[1913 Webster]
2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
[1913 Webster]
3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
[1913 Webster]
Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
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Polar equation of a line
(gcide) | Polar \Po"lar\, a. [Cf. F. polaire. See Pole of the earth.]
1. Of or pertaining to one of the poles of the earth, or of a
sphere; situated near, or proceeding from, one of the
poles; as, polar regions; polar seas; polar winds.
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2. Of or pertaining to the magnetic pole, or to the point to
which the magnetic needle is directed.
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3. (Geom.) Pertaining to, reckoned from, or having a common
radiating point; as, polar coordinates.
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Polar axis, that axis of an astronomical instrument, as an
equatorial, which is parallel to the earths axis.
Polar bear (Zool.), a large bear (Ursus maritimus syn.
Thalarctos maritimus) inhabiting the arctic regions. It
sometimes measures nearly nine feet in length and weighs
1,600 pounds. It is partially amphibious, very powerful,
and the most carnivorous of all the bears. The fur is
white, tinged with yellow. Called also White bear. See
Bear.
Polar body, Polar cell, or Polar globule (Biol.), a
minute cell which separates by karyokinesis from the ovum
during its maturation. In the maturation of ordinary ova
two polar bodies are formed, but in parthogenetic ova only
one. The first polar body formed is usually larger than
the second one, and often divides into two after its
separation from the ovum. Each of the polar bodies removes
maternal chromatin from the ovum to make room for the
chromatin of the fertilizing spermatozoon; but their
functions are not fully understood.
Polar circles (Astron. & Geog.), two circles, each at a
distance from a pole of the earth equal to the obliquity
of the ecliptic, or about 23[deg] 28', the northern called
the arctic circle, and the southern the antarctic circle.
Polar clock, a tube, containing a polarizing apparatus,
turning on an axis parallel to that of the earth, and
indicating the hour of the day on an hour circle, by being
turned toward the plane of maximum polarization of the
light of the sky, which is always 90[deg] from the sun.
Polar coordinates. See under 3d Coordinate.
Polar dial, a dial whose plane is parallel to a great
circle passing through the poles of the earth. --Math.
Dict.
Polar distance, the angular distance of any point on a
sphere from one of its poles, particularly of a heavenly
body from the north pole of the heavens.
Polar equation of a line or Polar equation of a surface,
an equation which expresses the relation between the polar
coordinates of every point of the line or surface.
Polar forces (Physics), forces that are developed and act
in pairs, with opposite tendencies or properties in the
two elements, as magnetism, electricity, etc.
Polar hare (Zool.), a large hare of Arctic America ({Lepus
arcticus}), which turns pure white in winter. It is
probably a variety of the common European hare ({Lepus
timidus}).
Polar lights, the aurora borealis or australis.
Polar opposition, or Polaric opposition or {Polar
contrast} or Polaric contrast (Logic), an opposition or
contrast made by the existence of two opposite conceptions
which are the extremes in a species, as white and black in
colors; hence, as great an opposition or contrast as
possible.
Polar projection. See under Projection.
Polar spherical triangle (Spherics), a spherical triangle
whose three angular points are poles of the sides of a
given triangle. See 4th Pole, 2.
Polar whale (Zool.), the right whale, or bowhead. See
Whale.
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Polar equation of a surface
(gcide) | Polar \Po"lar\, a. [Cf. F. polaire. See Pole of the earth.]
1. Of or pertaining to one of the poles of the earth, or of a
sphere; situated near, or proceeding from, one of the
poles; as, polar regions; polar seas; polar winds.
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2. Of or pertaining to the magnetic pole, or to the point to
which the magnetic needle is directed.
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3. (Geom.) Pertaining to, reckoned from, or having a common
radiating point; as, polar coordinates.
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Polar axis, that axis of an astronomical instrument, as an
equatorial, which is parallel to the earths axis.
Polar bear (Zool.), a large bear (Ursus maritimus syn.
Thalarctos maritimus) inhabiting the arctic regions. It
sometimes measures nearly nine feet in length and weighs
1,600 pounds. It is partially amphibious, very powerful,
and the most carnivorous of all the bears. The fur is
white, tinged with yellow. Called also White bear. See
Bear.
Polar body, Polar cell, or Polar globule (Biol.), a
minute cell which separates by karyokinesis from the ovum
during its maturation. In the maturation of ordinary ova
two polar bodies are formed, but in parthogenetic ova only
one. The first polar body formed is usually larger than
the second one, and often divides into two after its
separation from the ovum. Each of the polar bodies removes
maternal chromatin from the ovum to make room for the
chromatin of the fertilizing spermatozoon; but their
functions are not fully understood.
Polar circles (Astron. & Geog.), two circles, each at a
distance from a pole of the earth equal to the obliquity
of the ecliptic, or about 23[deg] 28', the northern called
the arctic circle, and the southern the antarctic circle.
Polar clock, a tube, containing a polarizing apparatus,
turning on an axis parallel to that of the earth, and
indicating the hour of the day on an hour circle, by being
turned toward the plane of maximum polarization of the
light of the sky, which is always 90[deg] from the sun.
Polar coordinates. See under 3d Coordinate.
Polar dial, a dial whose plane is parallel to a great
circle passing through the poles of the earth. --Math.
Dict.
Polar distance, the angular distance of any point on a
sphere from one of its poles, particularly of a heavenly
body from the north pole of the heavens.
Polar equation of a line or Polar equation of a surface,
an equation which expresses the relation between the polar
coordinates of every point of the line or surface.
Polar forces (Physics), forces that are developed and act
in pairs, with opposite tendencies or properties in the
two elements, as magnetism, electricity, etc.
Polar hare (Zool.), a large hare of Arctic America ({Lepus
arcticus}), which turns pure white in winter. It is
probably a variety of the common European hare ({Lepus
timidus}).
Polar lights, the aurora borealis or australis.
Polar opposition, or Polaric opposition or {Polar
contrast} or Polaric contrast (Logic), an opposition or
contrast made by the existence of two opposite conceptions
which are the extremes in a species, as white and black in
colors; hence, as great an opposition or contrast as
possible.
Polar projection. See under Projection.
Polar spherical triangle (Spherics), a spherical triangle
whose three angular points are poles of the sides of a
given triangle. See 4th Pole, 2.
Polar whale (Zool.), the right whale, or bowhead. See
Whale.
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Reciprocal equation
(gcide) | Reciprocal \Re*cip"ro*cal\ (r[-e]*s[i^]p"r[-o]*kal), a. [L.
reciprocus; of unknown origin.]
1. Recurring in vicissitude; alternate.
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2. Done by each to the other; interchanging or interchanged;
given and received; due from each to each; mutual; as,
reciprocal love; reciprocal duties.
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Let our reciprocal vows be remembered. --Shak.
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3. Mutually interchangeable.
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These two rules will render a definition reciprocal
with the thing defined. --I. Watts.
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4. (Gram.) Reflexive; -- applied to pronouns and verbs, but
sometimes limited to such pronouns as express mutual
action.
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5. (Math.) Used to denote different kinds of mutual relation;
often with reference to the substitution of reciprocals
for given quantities. See the Phrases below.
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Reciprocal equation (Math.), one which remains unchanged in
form when the reciprocal of the unknown quantity is
substituted for that quantity.
Reciprocal figures (Geom.), two figures of the same kind
(as triangles, parallelograms, prisms, etc.), so related
that two sides of the one form the extremes of a
proportion of which the means are the two corresponding
sides of the other; in general, two figures so related
that the first corresponds in some special way to the
second, and the second corresponds in the same way to the
first.
Reciprocal proportion (Math.), a proportion such that, of
four terms taken in order, the first has to the second the
same ratio which the fourth has to the third, or the first
has to the second the same ratio which the reciprocal of
the third has to the reciprocal of the fourth. Thus, 2:5:
:20:8 form a reciprocal proportion, because 2:5:
:1/20:1/8.
Reciprocal quantities (Math.), any two quantities which
produce unity when multiplied together.
Reciprocal ratio (Math.), the ratio between the reciprocals
of two quantities; as, the reciprocal ratio of 4 to 9 is
that of 1/4 to [frac19].
Reciprocal terms (Logic), those terms which have the same
signification, and, consequently, are convertible, and may
be used for each other.
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Syn: Mutual; alternate.
Usage: Reciprocal, Mutual. The distinctive idea of mutual
is, that the parties unite by interchange in the same
act; as, a mutual covenant; mutual affection, etc. The
distinctive idea of reciprocal is, that one party acts
by way of return or response to something previously
done by the other party; as, a reciprocal kindness;
reciprocal reproaches, etc. Love is reciprocal when
the previous affection of one party has drawn forth
the attachment of the other. To make it mutual in the
strictest sense, the two parties should have fallen in
love at the same time; but as the result is the same,
the two words are here used interchangeably. The
ebbing and flowing of the tide is a case where the
action is reciprocal, but not mutual.
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Relativistic mass equation
(gcide) | Relativistic mass equation \Rel`a*tiv*ist"ic mass e*qua"tion\,
n. (physics)
an equation expressing the mass of an object as a function of
its velocity: as the velocity v of an object increases, its
mass m increases from its rest mass m0 according to the
equation: m = m0/root{1 - v^2/c^2} where c is the speed
of light in a vacuum. If the speed of an object were to
become equal to that of light, it can be seen that the mass
would be infinite, from which it follows that nothing can
accelerate up to or beyond the speed of light.
[PJC]
Note: The theoretical possibility that there are particles
which always move faster than light cannot at present
be disproved and is not denied by this equation; in
such a case, the relativistic mass equation asserts
that such particles can never decelerate to or below
the speed of light. Such hypothetical particles are
referred to as
tachyons.
[PJC] |
Root of an equation
(gcide) | Root \Root\, n. [Icel. r[=o]t (for vr[=o]t); akin to E. wort,
and perhaps to root to turn up the earth. See Wort.]
1. (Bot.)
(a) The underground portion of a plant, whether a true
root or a tuber, a bulb or rootstock, as in the
potato, the onion, or the sweet flag.
(b) The descending, and commonly branching, axis of a
plant, increasing in length by growth at its extremity
only, not divided into joints, leafless and without
buds, and having for its offices to fix the plant in
the earth, to supply it with moisture and soluble
matters, and sometimes to serve as a reservoir of
nutriment for future growth. A true root, however, may
never reach the ground, but may be attached to a wall,
etc., as in the ivy, or may hang loosely in the air,
as in some epiphytic orchids.
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2. An edible or esculent root, especially of such plants as
produce a single root, as the beet, carrot, etc.; as, the
root crop.
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3. That which resembles a root in position or function, esp.
as a source of nourishment or support; that from which
anything proceeds as if by growth or development; as, the
root of a tooth, a nail, a cancer, and the like.
Specifically:
(a) An ancestor or progenitor; and hence, an early race; a
stem.
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They were the roots out of which sprang two
distinct people. --Locke.
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(b) A primitive form of speech; one of the earliest terms
employed in language; a word from which other words
are formed; a radix, or radical.
(c) The cause or occasion by which anything is brought
about; the source. "She herself . . . is root of
bounty." --Chaucer.
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The love of money is a root of all kinds of
evil. --1 Tim. vi.
10 (rev. Ver.)
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(d) (Math.) That factor of a quantity which when
multiplied into itself will produce that quantity;
thus, 3 is a root of 9, because 3 multiplied into
itself produces 9; 3 is the cube root of 27.
(e) (Mus.) The fundamental tone of any chord; the tone
from whose harmonics, or overtones, a chord is
composed. --Busby.
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(f) The lowest place, position, or part. "Deep to the
roots of hell." --Milton. "The roots of the
mountains." --Southey.
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4. (Astrol.) The time which to reckon in making calculations.
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When a root is of a birth yknowe [known]. --Chaucer.
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Aerial roots. (Bot.)
(a) Small roots emitted from the stem of a plant in the
open air, which, attaching themselves to the bark of
trees, etc., serve to support the plant.
(b) Large roots growing from the stem, etc., which descend
and establish themselves in the soil. See Illust. of
Mangrove.
Multiple primary root (Bot.), a name given to the numerous
roots emitted from the radicle in many plants, as the
squash.
Primary root (Bot.), the central, first-formed, main root,
from which the rootlets are given off.
Root and branch, every part; wholly; completely; as, to
destroy an error root and branch.
Root-and-branch men, radical reformers; -- a designation
applied to the English Independents (1641). See Citation
under Radical, n., 2.
Root barnacle (Zool.), one of the Rhizocephala.
Root hair (Bot.), one of the slender, hairlike fibers found
on the surface of fresh roots. They are prolongations of
the superficial cells of the root into minute tubes.
--Gray.
Root leaf (Bot.), a radical leaf. See Radical, a., 3
(b) .
Root louse (Zool.), any plant louse, or aphid, which lives
on the roots of plants, as the Phylloxera of the
grapevine. See Phylloxera.
Root of an equation (Alg.), that value which, substituted
for the unknown quantity in an equation, satisfies the
equation.
Root of a nail
(Anat.), the part of a nail which is covered by the skin.
Root of a tooth (Anat.), the part of a tooth contained in
the socket and consisting of one or more fangs.
Secondary roots (Bot.), roots emitted from any part of the
plant above the radicle.
To strike root, To take root, to send forth roots; to
become fixed in the earth, etc., by a root; hence, in
general, to become planted, fixed, or established; to
increase and spread; as, an opinion takes root. "The
bended twigs take root." --Milton.
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Secular equation
(gcide) | Secular \Sec"u*lar\, a. [OE. secular, seculer. L. saecularis,
fr. saeculum a race, generation, age, the times, the world;
perhaps akin to E. soul: cf. F. s['e]culier.]
1. Coming or observed once in an age or a century.
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The secular year was kept but once a century.
--Addison.
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2. Pertaining to an age, or the progress of ages, or to a
long period of time; accomplished in a long progress of
time; as, secular inequality; the secular refrigeration of
the globe.
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3. Of or pertaining to this present world, or to things not
spiritual or holy; relating to temporal as distinguished
from eternal interests; not immediately or primarily
respecting the soul, but the body; worldly.
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New foes arise,
Threatening to bind our souls with secular chains.
--Milton.
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4. (Eccl.) Not regular; not bound by monastic vows or rules;
not confined to a monastery, or subject to the rules of a
religious community; as, a secular priest.
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He tried to enforce a stricter discipline and
greater regard for morals, both in the religious
orders and the secular clergy. --Prescott.
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5. Belonging to the laity; lay; not clerical.
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I speak of folk in secular estate. --Chaucer.
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Secular equation (Astron.), the algebraic or numerical
expression of the magnitude of the inequalities in a
planet's motion that remain after the inequalities of a
short period have been allowed for.
Secular games (Rom. Antiq.), games celebrated, at long but
irregular intervals, for three days and nights, with
sacrifices, theatrical shows, combats, sports, and the
like.
Secular music, any music or songs not adapted to sacred
uses.
Secular hymn or Secular poem, a hymn or poem composed for
the secular games, or sung or rehearsed at those games.
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Simple equation
(gcide) | Simple \Sim"ple\, a. [Compar. Simpler; superl. Simplest.]
[F., fr. L. simplus, or simplex, gen. simplicis. The first
part of the Latin words is probably akin to E. same, and the
sense, one, one and the same; cf. L. semel once, singuli one
to each, single. Cg. Single, a., Same, a., and for the
last part of the word cf. Double, Complex.]
1. Single; not complex; not infolded or entangled;
uncombined; not compounded; not blended with something
else; not complicated; as, a simple substance; a simple
idea; a simple sound; a simple machine; a simple problem;
simple tasks.
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2. Plain; unadorned; as, simple dress. "Simple truth."
--Spenser. "His simple story." --Burns.
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3. Mere; not other than; being only.
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A medicine . . . whose simple touch
Is powerful to araise King Pepin. --Shak.
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4. Not given to artifice, stratagem, or duplicity;
undesigning; sincere; true.
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Full many fine men go upon my score, as simple as I
stand here, and I trust them. --Marston.
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Must thou trust Tradition's simple tongue? --Byron.
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To be simple is to be great. --Emerson.
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5. Artless in manner; unaffected; unconstrained; natural;
inartificial;; straightforward.
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In simple manners all the secret lies. --Young.
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6. Direct; clear; intelligible; not abstruse or enigmatical;
as, a simple statement; simple language.
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7. Weak in intellect; not wise or sagacious; of but moderate
understanding or attainments; hence, foolish; silly. "You
have simple wits." --Shak.
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The simple believeth every word; but the prudent man
looketh well to his going. --Prov. xiv.
15.
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8. Not luxurious; without much variety; plain; as, a simple
diet; a simple way of living.
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Thy simple fare and all thy plain delights.
--Cowper.
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9. Humble; lowly; undistinguished.
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A simple husbandman in garments gray. --Spenser.
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Clergy and laity, male and female, gentle and simple
made the fuel of the same fire. --Fuller.
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10. (BOt.) Without subdivisions; entire; as, a simple stem; a
simple leaf.
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11. (Chem.) Not capable of being decomposed into anything
more simple or ultimate by any means at present known;
elementary; thus, atoms are regarded as simple bodies.
Cf. Ultimate, a.
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Note: A simple body is one that has not as yet been
decomposed. There are indications that many of our
simple elements are still compound bodies, though their
actual decomposition into anything simpler may never be
accomplished.
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12. (Min.) Homogenous.
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13. (Zool.) Consisting of a single individual or zooid; as, a
simple ascidian; -- opposed to compound.
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Simple contract (Law), any contract, whether verbal or
written, which is not of record or under seal. --J. W.
Smith. --Chitty.
Simple equation (Alg.), an equation containing but one
unknown quantity, and that quantity only in the first
degree.
Simple eye (Zool.), an eye having a single lens; -- opposed
to compound eye.
Simple interest. See under Interest.
Simple larceny. (Law) See under Larceny.
Simple obligation (Rom. Law), an obligation which does not
depend for its execution upon any event provided for by
the parties, or is not to become void on the happening of
any such event. --Burrill.
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Syn: Single; uncompounded; unmingled; unmixed; mere;
uncombined; elementary; plain; artless; sincere;
harmless; undesigning; frank; open; unaffected;
inartificial; unadorned; credulous; silly; foolish;
shallow; unwise.
Usage: Simple, Silly. One who is simple is sincere,
unaffected, and inexperienced in duplicity, -- hence
liable to be duped. A silly person is one who is
ignorant or weak and also self-confident; hence, one
who shows in speech and act a lack of good sense.
Simplicity is incompatible with duplicity, artfulness,
or vanity, while silliness is consistent with all
three. Simplicity denotes lack of knowledge or of
guile; silliness denotes want of judgment or right
purpose, a defect of character as well as of
education.
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I am a simple woman, much too weak
To oppose your cunning. --Shak.
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He is the companion of the silliest people in
their most silly pleasure; he is ready for every
impertinent entertainment and diversion. --Law.
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Simultaneous equations
(gcide) | Simultaneous \Si`mul*ta"ne*ous\, a. [LL. simultim at the same
time, fr. L. simul. See Simulate.]
Existing, happening, or done, at the same time; as,
simultaneous events. -- Si`mul*ta"ne*ous*ly, adv. --
Si`mul*ta"ne*ous*ness, n.
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Simultaneous equations (Alg.), two or more equations in
which the values of the unknown quantities entering them
are the same at the same time in both or in all.
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Theory of equations
(gcide) | Equation \E*qua"tion\, n. [L. aequatio an equalizing: cf. F.
['e]quation equation. See Equate.]
1. A making equal; equal division; equality; equilibrium.
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Again the golden day resumed its right,
And ruled in just equation with the night. --Rowe.
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2. (Math.) An expression of the condition of equality between
two algebraic quantities or sets of quantities, the sign =
being placed between them; as, a binomial equation; a
quadratic equation; an algebraic equation; a
transcendental equation; an exponential equation; a
logarithmic equation; a differential equation, etc.
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3. (Astron.) A quantity to be applied in computing the mean
place or other element of a celestial body; that is, any
one of the several quantities to be added to, or taken
from, its position as calculated on the hypothesis of a
mean uniform motion, in order to find its true position as
resulting from its actual and unequal motion.
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Absolute equation. See under Absolute.
Equation box, or Equational box, a system of differential
gearing used in spinning machines for regulating the twist
of the yarn. It resembles gearing used in equation clocks
for showing apparent time.
Equation of the center (Astron.), the difference between
the place of a planet as supposed to move uniformly in a
circle, and its place as moving in an ellipse.
Equations of condition (Math.), equations formed for
deducing the true values of certain quantities from others
on which they depend, when different sets of the latter,
as given by observation, would yield different values of
the quantities sought, and the number of equations that
may be found is greater than the number of unknown
quantities.
Equation of a curve (Math.), an equation which expresses
the relation between the co["o]rdinates of every point in
the curve.
Equation of equinoxes (Astron.), the difference between the
mean and apparent places of the equinox.
Equation of payments (Arith.), the process of finding the
mean time of payment of several sums due at different
times.
Equation of time (Astron.), the difference between mean and
apparent time, or between the time of day indicated by the
sun, and that by a perfect clock going uniformly all the
year round.
Equation clock or Equation watch, a timepiece made to
exhibit the differences between mean solar and apparent
solar time. --Knight.
Normal equation. See under Normal.
Personal equation (Astron.), the difference between an
observed result and the true qualities or peculiarities in
the observer; particularly the difference, in an average
of a large number of observation, between the instant when
an observer notes a phenomenon, as the transit of a star,
and the assumed instant of its actual occurrence; or,
relatively, the difference between these instants as noted
by two observers. It is usually only a fraction of a
second; -- sometimes applied loosely to differences of
judgment or method occasioned by temperamental qualities
of individuals.
Theory of equations (Math.), the branch of algebra that
treats of the properties of a single algebraic equation of
any degree containing one unknown quantity.
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To reduce an equation
(gcide) | Reduce \Re*duce"\ (r[-e]*d[=u]s"), v. t. [imp. & p. p. Reduced
(-d[=u]st"),; p. pr. & vb. n. Reducing (-d[=u]"s[i^]ng).]
[L. reducere, reductum; pref. red-. re-, re- + ducere to
lead. See Duke, and cf. Redoubt, n.]
1. To bring or lead back to any former place or condition.
[Obs.]
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And to his brother's house reduced his wife.
--Chapman.
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The sheep must of necessity be scattered, unless the
great Shephered of souls oppose, or some of his
delegates reduce and direct us. --Evelyn.
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2. To bring to any inferior state, with respect to rank,
size, quantity, quality, value, etc.; to diminish; to
lower; to degrade; to impair; as, to reduce a sergeant to
the ranks; to reduce a drawing; to reduce expenses; to
reduce the intensity of heat. "An ancient but reduced
family." --Sir W. Scott.
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Nothing so excellent but a man may fasten upon
something belonging to it, to reduce it.
--Tillotson.
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Having reduced
Their foe to misery beneath their fears. --Milton.
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Hester Prynne was shocked at the condition to which
she found the clergyman reduced. --Hawthorne.
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3. To bring to terms; to humble; to conquer; to subdue; to
capture; as, to reduce a province or a fort.
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4. To bring to a certain state or condition by grinding,
pounding, kneading, rubbing, etc.; as, to reduce a
substance to powder, or to a pasty mass; to reduce fruit,
wood, or paper rags, to pulp.
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It were but right
And equal to reduce me to my dust. --Milton.
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5. To bring into a certain order, arrangement,
classification, etc.; to bring under rules or within
certain limits of descriptions and terms adapted to use in
computation; as, to reduce animals or vegetables to a
class or classes; to reduce a series of observations in
astronomy; to reduce language to rules.
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6. (Arith.)
(a) To change, as numbers, from one denomination into
another without altering their value, or from one
denomination into others of the same value; as, to
reduce pounds, shillings, and pence to pence, or to
reduce pence to pounds; to reduce days and hours to
minutes, or minutes to days and hours.
(b) To change the form of a quantity or expression without
altering its value; as, to reduce fractions to their
lowest terms, to a common denominator, etc.
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7. (Chem.) To add an electron to an atom or ion.
Specifically: To remove oxygen from; to deoxidize.
(Metallurgy) To bring to the metallic state by separating
from combined oxygen and impurities; as, metals are
reduced from their ores. (Chem.) To combine with, or to
subject to the action of, hydrogen or any other reducing
agent; as, ferric iron is reduced to ferrous iron;
aldehydes can be reduced to alcohols by lithium hydride;
-- opposed to oxidize.
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8. (Med.) To restore to its proper place or condition, as a
displaced organ or part; as, to reduce a dislocation, a
fracture, or a hernia.
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Reduced iron (Chem.), metallic iron obtained through
deoxidation of an oxide of iron by exposure to a current
of hydrogen or other reducing agent. When hydrogen is used
the product is called also iron by hydrogen.
To reduce an equation (Alg.), to bring the unknown quantity
by itself on one side, and all the known quantities on the
other side, without destroying the equation.
To reduce an expression (Alg.), to obtain an equivalent
expression of simpler form.
To reduce a square (Mil.), to reform the line or column
from the square.
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Syn: To diminish; lessen; decrease; abate; shorten; curtail;
impair; lower; subject; subdue; subjugate; conquer.
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Transcendental equation
(gcide) | Transcendental \Tran`scen*den"tal\, a. [Cf. F. transcendantal,
G. transcendental.]
1. Supereminent; surpassing others; as, transcendental being
or qualities.
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2. (Philos.) In the Kantian system, of or pertaining to that
which can be determined a priori in regard to the
fundamental principles of all human knowledge. What is
transcendental, therefore, transcends empiricism; but is
does not transcend all human knowledge, or become
transcendent. It simply signifies the a priori or
necessary conditions of experience which, though affording
the conditions of experience, transcend the sphere of that
contingent knowledge which is acquired by experience.
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3. Vaguely and ambitiously extravagant in speculation,
imagery, or diction.
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Note: In mathematics, a quantity is said to be transcendental
relative to another quantity when it is expressed as a
transcendental function of the latter; thus, a^x,
10^2x, log x, sin x, tan x, etc., are transcendental
relative to x.
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Transcendental curve (Math.), a curve in which one ordinate
is a transcendental function of the other.
Transcendental equation (Math.), an equation into which a
transcendental function of one of the unknown or variable
quantities enters.
Transcendental function. (Math.) See under Function.
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Syn: Transcendental, Empirical.
Usage: These terms, with the corresponding nouns,
transcendentalism and empiricism, are of comparatively
recent origin. Empirical refers to knowledge which is
gained by the experience of actual phenomena, without
reference to the principles or laws to which they are
to be referred, or by which they are to be explained.
Transcendental has reference to those beliefs or
principles which are not derived from experience, and
yet are absolutely necessary to make experience
possible or useful. Such, in the better sense of the
term, is the transcendental philosophy, or
transcendentalism. Each of these words is also used in
a bad sense, empiricism applying to that one-sided
view of knowledge which neglects or loses sight of the
truths or principles referred to above, and trusts to
experience alone; transcendentalism, to the opposite
extreme, which, in its deprecation of experience,
loses sight of the relations which facts and phenomena
sustain to principles, and hence to a kind of
philosophy, or a use of language, which is vague,
obscure, fantastic, or extravagant.
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Verification of an equation
(gcide) | Verification \Ver`i*fi*ca"tion\, n. [Cf. F. v['e]rification.]
1. The act of verifying, or the state of being verified;
confirmation; authentication.
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2. (Law)
(a) Confirmation by evidence.
(b) A formal phrase used in concluding a plea.
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Verification of an equation (Math.), the operation of
testing the equation of a problem, to see whether it
expresses truly the conditions of the problem. --Davies &
Peck. (Math. Dict.)
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Zonal equation
(gcide) | Zonal \Zon"al\, a. [L. zonalis.]
Of or pertaining to a zone; having the form of a zone or
zones.
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Zonal equation (Crystallog.), the mathematical relation
which belongs to all the planes of a zone, and expresses
their common position with reference to the axes.
Zonal structure (Crystallog.), a structure characterized by
the arrangements of color, inclusions, etc., of a crystal
in parallel or concentric layers, which usually follow the
outline of the crystal, and mark the changes that have
taken place during its growth.
Zonal symmetry. (Biol.) See the Note under Symmetry.
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biquadratic equation
(wn) | biquadratic equation
n 1: an equation of the fourth degree [syn: {biquadratic
equation}, biquadratic] |
differential equation
(wn) | differential equation
n 1: an equation containing differentials of a function |
equation
(wn) | equation
n 1: a mathematical statement that two expressions are equal
2: a state of being essentially equal or equivalent; equally
balanced; "on a par with the best" [syn: equality,
equivalence, equation, par]
3: the act of regarding as equal [syn: equation, equating] |
exponential equation
(wn) | exponential equation
n 1: an equation involving exponential functions of a variable |
linear equation
(wn) | linear equation
n 1: a polynomial equation of the first degree |
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