Two masses 6kg and 4kg are connected by an ideal string passing over a smooth pulley fixed at the ceiling.The magnitude of acceleration of the centre of mass is `(g=10m/s^(2))` (1) `4m/s^(2)`, (2) `0.4m/s^(2)` (3) `2m/s^(2)`, (4) `0.2m/s^(2)`

Two masses 6 kg and 4 kg are connected by massless flexible and inextensible string passing over massless and frictionless pulley.The acceleration of centre of mass is (g=10ms^2)

Three blocks of masses m_(1)=4kg, m_(2)=2kg, m_(3)=4kg are connected with ideal strings passing over a smooth, massless pulley as shown in figure. The acceleration of blocks will be (g=10m//s^(2))

Two unequal masses of 1kg and 2kg are connected by an inextensible light string passing over a smooth pulley as shown in figure. A force F = 20N is applied on 1kg block find the acceleration of either block (g = 10m//s^(2)) .

Two blocks of masses m_(1) and m_(2)(m_(1) gt m_(2)) connected by a massless string passing over a frictionless pulley Magnitude of acceleration of blocks would be

Two blocks of masses 3 kg and 6 kg are connected by a string as shown in the figure over a frictionless pulley. The acceleration of the system is A. 4m // s^2 B. 2m//s^2 C. zero D. 6m//s^2

Two bodies with masses m_1 and m_2(m_1gtm_2) are joined by a string passing over fixed pulley. Assume masses of the pulley and thread negligible. Then the acceleration of the centre of mass of the system (m_1+m_2) is

Two masses m_1=5kg and m_2=4.8kg tied to a string are hanging over a light frictionless pulley. What is the acceleration of the masses when left free to move?

Two masses M_(1) =5kg, M_2 =10kg are connected at the ends of an inextensible string passing over a frictionless pulley as shown. When masses are released, then acceleration of masses will be (a) g (b) (g)/(2) (c) (g)/(3) (d) (g)/(4)

Two blocks each of mass 4 kg connected by a light string which is passing over an ideal pulley is as shown in figure. If the system is released from rest then the acceleration (in m/ s^2 ) of centre of mass is (g = 10 m/ s^2 )

Two blocks of mass 10kg and 2 kg respectively are connected by an ideal string passing over a fixed smooth pulley as shown in figure. A monkey of mass 8 kg started climbing the string with a constant acceleration of 2m//s^(2) with respect to string at t=0 . Initially the system is in equilibrium and monkey is at a distance 2.4 from the pulley. Find the time taken by monkey to reach the pulley in sec.