Find acceleration `a` and angular acceleration `alpha`. If `F=2N,m=1 kg` and `l=2m`

A solid sphere of mass 5 kg and radius 1m is kept over a rough surface as shown in figure. A force F=30N is acting at the topmost point. (a). Check whether the pure rolling will take place or not (b). Find direction and magnitude of friction actually acting on the sphere. (c). Find linear acceleration a and angular acceleration alpha take g=10m//s^(2)

In the figure, the blocks unequal masses m_1 and m_2 ( m_1 lt m_2 ). m_2 has a downward acceleration a. The pulley P has a radius r, and some mass. The string does not slip on the pulley. Find the acceleration of block and angular acceleration of pulley. (I = momentum of inerita of pulley)

For the system shown in figure, M=1kg m=0.2 kg, r=0.2m calculate (g=10m//s^(2)) (a). The linear acceleration of hoop, (b). The angular acceleration of the hoop of mass M and (c). The tension in the rope.

A uniiform disc of radius r spins with angular velocity omega and angular acceleration alpha . If the centre of mass of the disc has linear acceleration a , find the magnitude and direction of aceeleration of the point 1,2 , and 3 .

Four 2 kg masses are connecte dby 1.4 m spokes to an axle. A force of 24 N acts on a lever 1/2 m long to produce angular acceleration alpha . The magnitude of alpha (in rad s^(-2) is the angle between r and F is 30^(@) .

Find the acceleration of movable pulled P and block B if acceleration of block A =1m//s^(2)darr .

If the pulley is massles and moves with an upward acceleration a_(0) . Find the acceleration of (m_1)and (m_2) w.r.t to elevator.

A uniform rod of mass M and length L is free to rotate in X-Z plane i.e. vecF=(3hati+2hatj+6hatk)N is acting on the rod at (L//2, 0,0) in the situtation shown in figure. The angular acceleration of the rod is (Take M=6 kg and L=4m )

A particle starts with constant angular acceleration of "2 rad/s"^(2) in a circle of radius 4m. Find angle between net acceleration and radial acceleration after 2 s :-