Examples in Physics |
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Page 2
... Assuming the value of g to be 981 ( as we shall do throughout ) , we see that a dyne is of the weight of a gramme . Work and Energy . — The C.G.S. unit of work is the work done by a dyne acting through a distance of one centimetre , and ...
... Assuming the value of g to be 981 ( as we shall do throughout ) , we see that a dyne is of the weight of a gramme . Work and Energy . — The C.G.S. unit of work is the work done by a dyne acting through a distance of one centimetre , and ...
Page 17
... Assuming Coulomb's law ( the law of inverse squares ) to find the dimensions of the unit of quantity in the electrostatic system . According to the law of inverse squares , the force exerted between two bodies charged with quantities g ...
... Assuming Coulomb's law ( the law of inverse squares ) to find the dimensions of the unit of quantity in the electrostatic system . According to the law of inverse squares , the force exerted between two bodies charged with quantities g ...
Page 17
... assumed that specific induc- tive capacity and magnetic permeability are of zero dimensions , i.e. that they are merely abstract numbers . This , however , is an arbitrary assumption , and is open to the obvious objection , among others ...
... assumed that specific induc- tive capacity and magnetic permeability are of zero dimensions , i.e. that they are merely abstract numbers . This , however , is an arbitrary assumption , and is open to the obvious objection , among others ...
Page 18
... assumed that specific induc- tive capacity and magnetic permeability are of zero dimensions , i.e. that they are merely abstract numbers . This , however , is an arbitrary assumption , and is open to the obvious objection , among others ...
... assumed that specific induc- tive capacity and magnetic permeability are of zero dimensions , i.e. that they are merely abstract numbers . This , however , is an arbitrary assumption , and is open to the obvious objection , among others ...
Page 25
... assumed-- I foot I inch = - 30.48 cm . 2.54 cm . I pound = 453.6 gm . 1. State and discuss Newton's First Law of Motion , and show that it provides us with a definition of force . " " 2. Enunciate Newton's Second Law ; state the exact ...
... assumed-- I foot I inch = - 30.48 cm . 2.54 cm . I pound = 453.6 gm . 1. State and discuss Newton's First Law of Motion , and show that it provides us with a definition of force . " " 2. Enunciate Newton's Second Law ; state the exact ...
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acceleration amount of heat ampère angle atmospheric pressure B.Sc barometer battery body of mass Boyle's law C.G.S. units Calculate calorimeter Camb capacity cells centre charge circuit coefficient of expansion column conductor constant convex lens copper cubic centimetres cubical expansion Daniell cells deflection denote density diameter distance dynes electricity equal equation equivalent ergs feet per second Find the specific focal length foot-pounds ft.-lbs galvanometer given glass grammes grammes of water heat-units horizontal horse-power immersed inches internal resistance kilogramme lamp latent heat liquid litres magnetic Matric measured melted mercury metres per second miles minute object ohms piston placed plane pole poundals pounds produced Prove quantity radius raised ratio refractive refractive index Schol shunt specific gravity specific heat sphere steam string surface tangent galvanometer temperature tube vertical vibrations volts volume weight wire