A dynamometer D is attached to weights of masses `m_1 and m_2` Two forces `F_1 and F_2` are applied to the masses `F_1 and F_2` as shown. The entire arrangement is there on a smooth horizontal surface.

The net acceleration of the system is

A dynamometer D is attached to weights of masses m_1 and m_2 Two forces F_1 and F_2 are applied to the masses F_1 and F_2 as shown. The entire arrangement is there on a smooth horizontal surface. The reading of the dynamometer, if m_1 = m_2 = m is

A dynamometer D is attached to weights of masses m_1 and m_2 Two forces F_1 and F_2 are applied to the masses F_1 and F_2 as shown. The entire arrangement is there on a smooth horizontal surface. The reading of the dynamometer in the above arrangement is

A dynamometer D is attached to two blocks of masses 6 kg and 4 kg. Forces of 20 N and 10N are applied on the blocks as shown in Fig. The dynamometer reads:

Two blocks m_(1) and m_(2) are connected by a massless spring of force constant k F_(1) and F_(2) are two forces acting on m and m_1 and m_2 as shown. The arrangement is on a horizontal plane.

A constant force F = m_(2)g//2 is applied on the block of mass nij as shown. The string and the pulley are light and the surface of the table is smooth. Find the acceleration of m_(1)

Two particles of mass 'm' each are conncected by a light string of length 2a a shown in figure. The arrangement lies on a smooth horizontal plane. A constant force 'Facts at C as shown The acceleration of 'm' at right angles to F is given by a = F/(rm)(x/(sqrt(a^2-x^2))) , where 2x is the distance between them at any instant then ' is

A uniform sphere is placed on a smooth horizontal surface and a horzontal force F is applied on it at a distance .h. above the surface. The acceleration of the centre