What minimum force F is required to move this 4 kg block if it acts at an angle of `45^(@)` as shown ? `(mu_(s)=0.6)`

A 60 kg block is pushed up on inclined plane by means of a horizontal push P as shwon in the figure . The coefficients of friction between the incline and block are mu_(s) = 0.6 and mu_(k) = 0.4 and the ramp makes an angle of 30^(@) with the horizontal . (a) What value of P is required to move the block at a constant speed of 0.20 m/s along the incline ? (b) If the person should stop for rest and let P = 0 , does the block slide back on the incline ?

A block of 50 kg rests on a table. A horizontal force of 294 N is required to just move the block, the coefficient of static friction between the surfaces in contant (mu_(s)) is

A block of mass m = 4 kg is placed over a rough inclined plane as shown in fig . The coefficient of friction between the block and the plane mu = 0.5 A force F = 10N is applied on the block at an angle of 30^(@) . Find the contact force between the block and the plane. k

In the previous example, suppose we move the block by pulling it with the help of a massless string tied to the block as shown here. What is the force F required to produce the same acceleration in the block as obtained in the last example ? (Given m=3kg,mu_s=0.3,mu_k=0.25 ,theta=37,a=8.4m/s^2)

What is the maximum value of the force F such that the block shown in the arrangement, does not move ?

What is the maximum value of the force F such that the block shown in the arrangement, does not move?

In the Fig. shown a time dependent force F expressed as F=kt is applied on a block of mass 5 kg. Coefficient of static and kinetic friction is mu_(s)=0.4 and mu_(k)=0.3 . Motion begins when t=2 sec draw a acceleration vs time graph for block. (m=5 kg, mu_(s)=0.4, mu_(k)=0.3)

A block of mass m is lying on horizontal surface of coefficient of friction mu. A force is applied to the block at an angle theta with the horizontal. The block will move with a minimum force F if