Pulleys shown in the system of the figure are massless and friction less. Threads are inextensible. Mass of block A, B and C are `m_(1) kg,m_(2) =4kg ` and `m_(3) = 2.75kg`, respectively .Calculate acceleration of A block

Pulleys shown in the system are massless and fricionless. Threads are inextensible. The mass of blocks A, B, and C are m_(1)=2kg, m_(2)=4kg , and (m_3)=2.75 kg , respectively. Calculate the acceleration of each block.

In the arrangement shown in the figure pulleys are small, light and frictionless, threads are inextensible and mass of blocks A , B and C is m_(1)=5kg , m_(2)=4kg and m_(3)=2.5kg respectively and co-efficient of friction for both the planes is mu=0.50 . Calculate the acceleration of block A (in m//s^(2) ) when the system is released from rest. ( g=10 m//s^(2) )

In the arrangement , shown below pulleys are massless and frictionless and threads are inextensible , block of mass m_(1) will remain at rest if

In the arrangement , shown below pulleys are massless and frictionless and threads are inextensible , block of mass m_(1) will remain at rest if

In the arrangement shown below, pulleys are mass-less and friction-less and threads are in-extensible. Block of mass m_(1) will remain at rest if :

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

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

Two block A and B are arrenged as shown in figure (m_(A) = 5 kg and m_(B) = 10 kg) Find the acceleration of blocks if F = 40 N

Two block A and B are arrenged as shown in figure (m_(A) = 5 kg and m_(B) = 10 kg) Find the acceleration of blocks if F = 40 N

In the arrangement shown in the figure, friction exists only between the two blocks, A and B. The coefficient of static friction mu_(s)=0.6 and coefficient of kinetic friction mu_(k)=0.4 , the masses of the blocks A and B are m_(1)=20 kg and m_(2)=30kg , respectively. Find the acceleration (in ms^(-2) ) of m_(1) , if a force F=150N is applied, as shown in the figure. [Assume that string and pulleys are massless]