In Fig if `F = 4N , m= 2 kg M = 4 kg` then

A uniform disc of mass m , radius R is placed on a smooth horizontal surface. If we apply a horizontal force F at P as shown in the figure. If F = 4 N, m= .1 kg, R = 1 m and r = 1/2 m then, find the: acceleration of the CM (in ms^(2) )

A uniform disc of mass m , radius R is placed on a smooth horizontal surface. If we apply a horizontal force F at P as shown in the figure. If F = 4 N, m= .1 kg, R = 1 m and r = 1/2 m then, find the: angular acceleration of the disc. (rads^(-1))

Three blocks of mass m_1,m_2 and m_3 are placed on a horizontal frictionless surface . A force of 40 N pulls the system then calculate the value of T , if m_1 = 10 kg , m_2 = 6 kg ,m_3 = 4 kg

If m_1 =10kg, m_2 = 4kg and m_3 = 2kg the tension in the string connecting m_1 and m_2 is,

Three blocks of masses m _ 1 , m _ 2 and m_ 3 are connected by mass less string as shown kept on a frictionless table. They are pulled with a force T _ 3 = 40 N. If m _ 1 = 10 kg, m _ 2 = 6 kg and m _ 3 = 4kg , the tension T _ 2 will be

In the problem if k = 10 N/m, m=2kg, R=1m and A=2m. Find linear speed of the disc at mean position.

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 blocks m_(1), m_(2) , and m_(3) are arranged as shown in fig. if m_(2)=5 kg and m_(3)=8kg , at what value of m_(1) will 8kg mass be at rest?

In figure m_1=5 kg, m_2=2kg and F=1N. Find the acceleration of either block. Describe the motion of m_1 if the string breaks but F continues to act.

In the figure, m_(A)=2 kg and m_(B)=4kg . For what minimum value of F,A starts slipping over B? (g=10m//s^(2))