Treatise on Natural Philosophy, Part 1University Press, 1886 - Calculators |
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Page xii
... Kinetic Energy - Particle and Point - Inertia . SECTIONS 205-216 Force - Specification of a Force - Place of Application - Direc- tion - Magnitude - Accelerative Effect - Measure of Force 217-220 Standards of Weight are Masses , and not ...
... Kinetic Energy - Particle and Point - Inertia . SECTIONS 205-216 Force - Specification of a Force - Place of Application - Direc- tion - Magnitude - Accelerative Effect - Measure of Force 217-220 Standards of Weight are Masses , and not ...
Page xiii
... Energy · Kinetic Energy of a System - Moment of Inertia - Moment of Momentum of a Rotating Rigid Body - Radius of Gyration -Fly - wheel - Moment of Inertia about any Axis Momental Ellipsoid - Equilibration of Centrifugal Forces ...
... Energy · Kinetic Energy of a System - Moment of Inertia - Moment of Momentum of a Rotating Rigid Body - Radius of Gyration -Fly - wheel - Moment of Inertia about any Axis Momental Ellipsoid - Equilibration of Centrifugal Forces ...
Page xiv
... Energy - Space Average of Momentums - Least Action- Principle of Least ... Kinetic and Potential Energies -Integrated Equations of Motion , expressing ... Kinetic Energies expressed as Functions of Time- Example of Fundamental Modes ...
... Energy - Space Average of Momentums - Least Action- Principle of Least ... Kinetic and Potential Energies -Integrated Equations of Motion , expressing ... Kinetic Energies expressed as Functions of Time- Example of Fundamental Modes ...
Page xv
... Kinetic Energy - Of Potential Energy - Infinitesimal Motions in neighbourhood of Configuration of Unstable Equilibrium Case of Equality among Periods - Graphic Representation- Dissipative Systems - Views of Stokes on Resistance to a ...
... Kinetic Energy - Of Potential Energy - Infinitesimal Motions in neighbourhood of Configuration of Unstable Equilibrium Case of Equality among Periods - Graphic Representation- Dissipative Systems - Views of Stokes on Resistance to a ...
Page 221
... Generally ( § 29 ) , for a body of mass M moving anyhow in d's space there is change of momentum , at the rate , M in the direc- dta Rate of change of momentum . Kinetic energy . Particle 209. ] 221 DYNAMICAL LAWS AND PRINCIPLES .
... Generally ( § 29 ) , for a body of mass M moving anyhow in d's space there is change of momentum , at the rate , M in the direc- dta Rate of change of momentum . Kinetic energy . Particle 209. ] 221 DYNAMICAL LAWS AND PRINCIPLES .
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Common terms and phrases
acceleration action altered angular velocity anticlastic application B₁ Cambridge centre of inertia change of direction circle co-ordinates coefficients component condition configuration constant corresponding curvature curve cycloidal cylinder degrees of freedom Demy 8vo denote diagram differential equation direction cosines distance dt dt dx dy dy dy dy dz ellipse ellipsoid elongation equal equations of motion equilibrium expression finite fixed fluid force function geodetic geometrical given gyrostatic Hence infinitely small initial integral kinetic energy Laplace's equation length moving P₁ parallel parallelepiped particle perpendicular polygon position principal axes quantity radius ratio rectangular right angles rigid body rolling roots rotation round shear simple harmonic simple harmonic motions simple shear solution spherical harmonic spherical surface strain suppose synclastic tangent plane theorem tion twist values whole x₁ y₁ αξ λ² аф