A lead bullet strikes against a steel plate with a velocity `200ms^-1`. If the impact is perfectly inelastic and the heat produced is equally shared between the bullet and the target, thent he rise in temperature of the bullet is (specific heat capacity of lead `=125Jkg^-1K^-1`)

A lead bullet (specific heat=0.032cal/gm .^(@)C ) is completely stopped when it strikes a target with a velocity of 300m/s. the heat generated is equally shared by the bullet and the target. The rise in temperature of bullet will be

A lead bullet strikes a target with a velocity of 500 ms^(-1) and the bullet falls dead. Calculate the rise in temperature of the bullet assuming that 40% of the heat produced is used in heating the bullet. Given specific heat of lead = 0.03 cal g^(-1).^(@)C^(-1), J = 4.2 J cal^(-1) .

A bullet of mass 20xx10^(-3)kg enters into a fixed block of wood with a velocity of 100ms^(-1) and is brought to rest in the wood. Calclate the rise in temperature of te bullet if two -third of the heat produced is absorbed by the bullet. (Specific heat capacity of lead =32calkg^(-1)K^-1) and J=4.2J//"callorie" )

A lead block of mass 2 kg is supplied with a heat energy of 3600 J. Calculate the rise in temperature, if the sp. heat capacity of lead is 130 J kg^(-1) C^(-1) .

A lead bullet of mass 50g moving with a velocity of 100ms^(-1) strikes a target. If 40% of the heat produced is retained by the bullet, calculate the rise in its temperature. Specific heat of lead = 0.03 cal g^(-1)K^(-1) and J = 4.2 J cal^(-1)

A lead bullet strikes a target with velocity of 480 m/s. if the bullet falls dead, then the rise in temperature of bullet is, (Assuming that heat produced is equally shared between the bullet and target). (J=4.2xx10^(3)J//kcal,C=0.03kcal//kgK )

Two lead spheres of masses 10kg and 30k approach each other with speeds 10ms^(-1) and 20ms^(-1) and collide completely inelastically. What is the heat produced by the collision? What is the rise in temperature if all the heat produced is ratained by the spheres? (Specific heat capacity of lead =31 cal kg^(-1)K^(-1) and J=4.2 joules cal^(-1) )

With what velocity must a lead bullet at 50^(@)C strike against an obstacle in order that the heat produced by the arrest of the motion, is sufficient of melt it, assuming that all the heat produced remains within the bullet? (Specific heat capacity of lead =31cal kg^(-1)K^(-1) , melting point of lead =335^(@)C , specific latent heat capacity of lead =5370 cal kg^(-1)K^(-1) and J=4.2 joules cal^(-1) )