In figure shown, pulley are ideal `m_(1) gt 2m_(2)`. Initially the system is in equilibrium and string connecting `m_(2)` to rigid support below is cut. Find the initial acceleration of `m_(2)` If `m_(1)= 6 kg , m_(2) = 2.5 kg " and "g =10ms^(-2)`

In figure shown, pulleys are ideal m_(1)gt 2m_(2) . Initially the system is in equilibrium and string connecting m_(2) to rigid support below is cut. Find the initial acceleration of m_(2) ?

For the system shown in fog. m_(1) gt m_(2) gtm_(3) gt m_(4) . Initially, the system is at rest in equilibrium condition., if the string joining m_(4) and ground is cut, then just after the string is cut. Statement I: m_(1), m_(2), m_(3) remain stationary. Statement II: The value of acceleration of all the four blocks can be determined. Statement III: Only m_(4) remain stationary. Statement IV: Only m_(4) accelerates.

In the system shown in fig., all pulleys are mass less and the string is inextensible and light. (a) After the system is released, find the acceleration of mass m_(1) (b) If m_(1) = 1 kg, m_(2) = 2 kg "and" m_(3) = 3 kg then what must be value of mass m_(4) so that it accelerates downwards?

In the pulley system shown here, find the relationship between acceleration of m_(1),m_(2) and m_(3)

In the system shown in the adjoining figure, the acceleration of the 1 kg mass is m//s^(2) . (take g = 10 m//s^(2) )

Consider the system ofpulleysasshown in figure-2.197. Find the acceleration of the three masses m^(1),m^(2) and m^(3). (m_(1) = I kg,m_(2) = 2kg " and " m_(3) =3kg)

All surfaces shown in figure are smooth. For what ratio m_(1): m_(2):m_(2):m_(3) , system is in equilibrium. All pulleys and strings are massless.

In the figure shown all pulleys are ideal and small. The central pulleys is 2 m away from both ends. What is the length (in m) of the string ? The system is in equilibrium

In the system shown in fig the pulley is frictionless and the string massless if m_(1)=m_(2) thrust on the pulley will be:

In the arrangement shown in the all contact surfaces are smooth strings and pulleys are massless Given M_(1) =1kg, M_(2) =2kg, M_(3) =4kg and g =10ms^(-2) .