[" Question 3"],[" A smooth wedge in a chamber hangin from a fred ceng near the earth's surffis.A blaced at the top of the wedge "],[" takes at metto silde the length fthe weage.If the block at the top of the weedgend the cable supporting the chamber "],[" is broken at the same instant,the bock will "]

A smooth wedge A is fitted in a chamber hanging from a fixed ceiling near the earth's surface.A block B placed at the top of the wedge takes a time T to side down the length of the wedge. If the block is placed at the top of the wedge and the cable supporting the chamber is broken at the same instant, the block will

A smooth wedge A is fitted in a chamber hanging from a fixed ceiling near the earth's surface.A block B placed at the top of the wedge takes a time T to side down the length of the wedge. If the block is placed at the top of the wedge and the cable supporting the chamber is broken at the same instant, the block will

A smooth wedge A is fitted in a chamber hanging from a fixed ceiling near the erth's surface.A block B placed at the top of the wedge takes a time T to side down the length of the wedge. If the block is placed at the top of the wedge and the cable supporting the chamber is broken at the same instant, the block will

In the arrangement shown in fig. a wedge of mass m_(3) =3.45 kg is placed on a smooth horizontal surface. Small and light pulley is connected on its top edge, as shown. A light, flexible thread passes over the pulley. Two block having mass m_(1)=1.3kg and m_(2) =1.5 kg are connected at the ends of the thread. m_(1) is on smooth horizontal surface and m_(2) rests on inclined smooth surface of the wedge. the base length of wedge is 2m and inclination is 37^(@) . m_(2) is initially near the top edge of the wedge. If the whole system is released from rest, calculate: (a) velocity of wedge when m_(2) reaches its bottom. (b) velocity of m_(2) at that instant. (g=10ms^(-2)) .