Assertion: Two bodies of masses `M` and `m(M gt m)` are allowed to fall from the same height if the air resistance for each be the same then both the bodies will reach the earth simultaneously.
Reason: For same air resistance, acceleration of both the bodies will be same.

Two bodies of masses M and m are allowed to fall from the same height. If air resistance for each body be same, will the two bodies reach the ground simultaneously ?

Two bodies of masses M and m are allowed to fall from the same height . If air resistance for each body be same , will the two bodies reach the ground simultaneously ?

Assertion : Two bodies of unequal masses m_1 and m_2 are dropped from the same height. If the resistance offered by air to the motion of both bodies is the same, the bodies will reach the earth at the same time. Reason : For equal air resistance, acceleration of fall of masses m_1 and m_2 will be different.

i) If the net force acting on a body is zero, will it remain necessarily at rest? (ii) Two bodies of mass M and m are allowed to fall from the same height. If air resistance for each body be same, will the two bodies reach the ground simultaneously?

Two bodies of masses M and 27 M are allowed to fall on a viscous liquid simultaneously. The respective terminal velocities of bodies are V and kV. The value of k is

A body falls from a height 'h'. In absence of air resistance time of descent of body is

Two bodies of different masses are dropped simultaneously from the top of a tower. If air resistance is proportional to the mass of the body then,

Two bodies of masses m_(1) and m_(2) have same kinetic energy. The ratio of their momentum is

Two bodies of masses m_1 and m_2 have the same linear momentum. What is the ratio of their kinetic energies?

Two bodies x and y of weight 600 N and 1000 N are dropped simultaneously from the same height above the earth's surface from same place. Their accelerations will be