Elements of Natural Philosophy, Volume 1 |
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Page 2
... radius , § 54 ) ros , and therefore Ө 1 -- S is the measure of the curvature . Hence the cur- vature of a circle is inversely as its radius , and is measured , in terms of the proper unit of curvature , simply by the reciprocal of the ...
... radius , § 54 ) ros , and therefore Ө 1 -- S is the measure of the curvature . Hence the cur- vature of a circle is inversely as its radius , and is measured , in terms of the proper unit of curvature , simply by the reciprocal of the ...
Page 9
... radius R , with uniform velocity V. Then , to determine the direction of acceleration , we must draw , as below , from a fixed point O , lines OP , OQ , etc. , representing the velocity at A , B , etc. , KINEMATICS . 9.
... radius R , with uniform velocity V. Then , to determine the direction of acceleration , we must draw , as below , from a fixed point O , lines OP , OQ , etc. , representing the velocity at A , B , etc. , KINEMATICS . 9.
Page 10
... radius AC . Now P describes the circle PQS , while A describes ABD . Hence the velocity of P is to that of A as OP to CA , i.e. as V to R ; and is therefore equal to V R V or V2 R ' and this ( § 35 ) is the amount of the acceleration in ...
... radius AC . Now P describes the circle PQS , while A describes ABD . Hence the velocity of P is to that of A as OP to CA , i.e. as V to R ; and is therefore equal to V R V or V2 R ' and this ( § 35 ) is the amount of the acceleration in ...
Page 11
... radius R , with velocity V , the whole acceleration is directed towards the centre , and has the constant value V2 R ' See $ 36 . 43. With uniform acceleration in the direction of motion , a point describes spaces proportional to the ...
... radius R , with velocity V , the whole acceleration is directed towards the centre , and has the constant value V2 R ' See $ 36 . 43. With uniform acceleration in the direction of motion , a point describes spaces proportional to the ...
Page 12
... radius - vector are proportional to the times employed . This includes the case of a satellite or planet revolving about its primary , according to Kepler's first law . Evidently there is no acceleration perpendicular to the plane con ...
... radius - vector are proportional to the times employed . This includes the case of a satellite or planet revolving about its primary , according to Kepler's first law . Evidently there is no acceleration perpendicular to the plane con ...
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Common terms and phrases
acceleration action amount angular velocity anticlastic attraction axis called centimetre centre of gravity centre of inertia circle circular cloth co-ordinates component configuration consider constant cosine couple curvature curve cylinder denote density described diagram displacement distance elements ellipse ellipsoid elongation equal equations equilibrium external point Extra fcap finite flexure fluid forces acting friction geometrical given force Hence hodograph horizontal infinitely small instant inversely kinetic energy length magnitude mass matter measured moment of inertia momentum moving Natural Philosophy normal section Oxford P₁ parallel particle path pendulum perpendicular portion position potential pressure principal axes principle produce projection proportional quantity radius radius of gyration reckoned rectangular resultant right angles rigid body rotation round shear shell sides simple harmonic motion solid angle space spherical surface spiral square straight line strain stress suppose tangent theory tion torsion uniform unit vertical whole wire
Popular passages
Page 161 - that every particle of matter in the universe attracts every other particle, with a force whose direction is that of the line joining the two, and whose magnitude is directly as the product of their masses, and inversely as the square of their distances from each other.
Page 65 - Every body continues in its state of rest or of uniform motion in a straight line, except in so far as it is compelled by force to change that state.
Page 28 - Fourier's theorem is not only one of the most beautiful results of modern analysis, but may be said to furnish an indispensable instrument in the treatment of nearly every recondite question in modern physics.
Page 161 - Newton generalized the law of attraction into a statement that every particle of matter in the universe attracts every other particle with a force which varies directly as the product of their masses and inversely as the square of the distance between them; and he thence deduced the law of attraction for spherical shells of constant density.
Page 66 - Change of motion is proportional to the impressed force and takes place in the direction of the straight line in which the force acts.
Page 68 - To every action there is always an equal and contrary reaction; or, the mutual actions of any two bodies are always equal and oppositely directed in the same straight line.
Page 130 - UNTIL we know thoroughly the nature of matter and the forces which produce its motions, it will be utterly impossible to submit to mathematical reasoning the exact conditions of any physical question.