3 Animated Videos | 21 Structured Questions.
Find the max. mass of block A for which the system will be stationary in given fig. ?
Largest possible value of M so that the system remains stationary?
Ratio of mass if block A is just on the verge of slipping?
Max M that can be pulled by the man without slipping on the ground?
Find the force on the block from the wall for given arrangement.
Magnitude of frictional force acting on the block?
Find the weight of the block.
Friction on B due to A is?
Min value of F for which the block does not fall?
Friction acting on the block in each of the given cases?
Acceleration of block in each of the given cases?
Maximum value of F can be?
For what range of F, the block remains in static equilibrium?
Frictional force exerted by the wall on the block?
Find the magnitude of horizontal force F which keep the smaller block from slipping down the larger block.
Min force F required to keep the block stationary with respect to wedge?
Acceleration of the cart that will prevent the block from falling?
Min value of F to prevent the middle block from slipping?
Time when bead will reach the bottom?
Friction acting on the block will be?
Min value of _ so that m remains stationary wrt wedge?
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