A man weighing `80 kg` is standing on a trolley weighting `320 kg`. The trolley is resting on frictionless horizontal rails. If the man starts walking on the trolley along the rails at speed `1 m//s` (w.r.t. to trolley) then after `4 s` his displacement relative to the ground will be :

A man of mass 80 kg stands in an elevator. Calculate his apparent weight when, (iii) downwards with 2 m//s^2 acceleration

A man of mass 80 kg stands in an elevator. Calculate his apparent weight when, (iv) the elevator cable breaks (g = 10 m//s^2)

A man of mass 80 kg stands in an elevator. Calculate his apparent weight when, (ii) elevator is uniformly accelerated upwards at 2 m//s^2

A man standing on a frictionless rotating platform rotates at 1 rps, his arms are outstretched and he holds a weight in his hands. In this position, the total moment of inertia of the system is 6 kg m^2 , he leaves the weights, the moment of inertia decreases to 2kg m^2 . The resulting angular speed of the platform is

Determine the pressure of oxygen at 0^@C if the density of oxygen at N.T.P.= 1.44 kg//m^3 and R.M.S. speed of the molecules at N.T.P. = 456.4 m//s .

A steel rod of 1 m is supported at its ends so that it remains horizontal. Three spheres of masses 4 kg, 6 kg, 8 kg, are suspended from 15 cm, 40 cm and 80 cm marks respectively . If weight of rod is 2 kg wt, calculate the reaction at each support. ( g= 9.8 m//s^2)