Elements of Natural Philosophy |
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... corresponding pages of the larger work . ą½ " A great portion of the present volume has been in type since the autumn of 1863 , and has been printed for the use of our classes each autumn since that date . " 7 To this we would now only ...
... corresponding pages of the larger work . ą½ " A great portion of the present volume has been in type since the autumn of 1863 , and has been printed for the use of our classes each autumn since that date . " 7 To this we would now only ...
Page
... corresponding pages of the larger work. āA great portion of the present volume has been in type since the autumn of 1863, and has been printed for the use of our classes each autumn since that date.ā To this we would now only add that ...
... corresponding pages of the larger work. āA great portion of the present volume has been in type since the autumn of 1863, and has been printed for the use of our classes each autumn since that date.ā To this we would now only add that ...
Page 3
... corresponding property is conveniently called Tortuosity . 12. The nature of this will be best understood by considering the curve as a polygon whose sides are , indefinitely small . Any two consecutive sides , of course , lie in a ...
... corresponding property is conveniently called Tortuosity . 12. The nature of this will be best understood by considering the curve as a polygon whose sides are , indefinitely small . Any two consecutive sides , of course , lie in a ...
Page 14
... corresponding time ; and also that the tangent to the hodograph is parallel to the direction , and the velocity in the hodograph is equal to the amount of the acceleration of the moving point . When the hodograph and its origin , and ...
... corresponding time ; and also that the tangent to the hodograph is parallel to the direction , and the velocity in the hodograph is equal to the amount of the acceleration of the moving point . When the hodograph and its origin , and ...
Page 17
... corresponding angle - vector in the orbit , i . e .. to the angle through which the tangent to PQ has turned . Hence ( 89 ) the curvature of PQ is constant , or PQ is a circle . This demonstration , reversed , proves that if the ...
... corresponding angle - vector in the orbit , i . e .. to the angle through which the tangent to PQ has turned . Hence ( 89 ) the curvature of PQ is constant , or PQ is a circle . This demonstration , reversed , proves that if the ...
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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 co-ordinates component configuration consider constant cord corresponding cosine couple curvature curve cylinder denote density described diagram displacement distance ellipse ellipsoid elongation equal equations equilibrium external point finite fixed point flexure fluid forces acting formulae friction geometrical given force Hence hodograph horizontal inclined infinitely small instant inversely kinetic energy length magnitude mass matter measured moment of inertia momentum moving normal section Pā parallel parallelogram particle path pendulum perpendicular plane perpendicular portion position pressure principal axes principle produce projection proportional quantity radius radius of gyration reckoned rectangular relative 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 theorem tion torsion uniform unit vertical weight whole wire