The slope of graph as shown in figure at points 1,2 and 3 is `m_(1), m_(2)` and `m_(3)` respectively then

Three blocks are placed as shown in figure. Mass of A, B and C are m_(1), m_(2),"and "m_(3) respectively. The force exerted by block 'C' on 'B' is :-

A pulley-block arrangement is shown in the adjacent figure, if acceleration of m_(1), m_(2) and m_(3) are a_(1) ,a_(2) and a_(3) respectively, then relation between a_(1),a_(2) and a_(3) is ( All string and pulleys are ideal . )

A particle is executing SHM between points- X_(m)andX_(m) , as shown in figure(i). The velocity V(t) of the particle is partially graphed and shown in figure (ii). Two points A and B corresponding to time t_(1) and time t_(2) respectively are marked on the V(t) curve.

Three masses m_1 = m ,m_2 = 2m and m_3 = 3m are hund on a string passing over a frictionless pulley as shown in Figure . The mass of the string in negligible . The system is released from rest. If a_1 a_2 and a_3 are the accelerations of masses m_1, m_2 and m_3 respectively, then

The arrangement shown in the figure, the systme of masses m_(1), m_(2) and m_(3) is being pushed by a force F applied on m_(1) horizontally. In order to prevent the downwards slipping of m_(2) between m_(1) and m_(3) if coefficient of friction between m_(2) and m_(3) is mu and all the other surface are smooth, the minimum value of F :

Two masses m_(1) and m_(2) which are connected with a light string, are placed over a frictionless pulley. This set up is placed over a weighing machine, as shown. Three combination of mass m_(1) and m_(2) are used, in first case m_(1) =6kg and m_(2)=2 kg , in seconds case m_(1)=5 kg and m_(2)=3 kg and in third case m_(1)=4 kg and m_(2)= 4 kg . masses are held stationary initially and then released. if the reading of the weighing machine after the release in three cases are W_(1),W_(2) and W_(3) respectively then:

In the arrangement shown in figure pulleys are mass of block A,b and C is m_(1) = 5 kg m_(2) = 4 kg and m_(3) = 2.5 kg respectively .Co-efficient acceleration of friction for both the plane is mu = 0.50 Calculate acceleration of which block when system is released from rest

Three particles of masses m , m and 4kg are kept at a verticals of triangle ABC . Coordinates of A , B and C are (1,2) , (3,2) and (-2,-2) respectively such that the centre of mass lies at origin. Find the value of mass m . Hint. x_(cm)=(sum_(i-1)^(3)m_(i)x_(i))/(sum_(i=1)^(3)m_(i)) , y_(cm)=(sum_(i=1)^(3)m_(i)y_(i))/(sum_(i=1)^(3)m_(i))

Three particles of masses m , m and 4kg are kept at a verticals of triangle ABC . Coordinates of A , B and C are (1,2) , (3,2) and (-2,-2) respectively such that the centre of mass lies at origin. Find the value of mass m . Hint. x_(cm)=(sum_(i-1)^(3)m_(i)x_(i))/(sum_(i=1)^(3)m_(i)) , y_(cm)=(sum_(i=1)^(3)m_(i)y_(i))/(sum_(i=1)^(3)m_(i))

In the figure, if m_(1) is at rest, find the relation among m_(1), m_(2) and m_(3) ?