Infinite numbers of bloks are placed on a table on a edge as shown in the diagram.

What is the minimum value of L so that the blocks are just going to topple over the table ?

A cuboid of height 10 cm, width 5 cm and 8 kg is kept on a rough horizontal ground as shown . The ground is so rough that we can assume that the questions indicated below. A boy applies a horizontal force F at the top edge of the cuboid. What is the minimum value of F so taht the block begins to topple ?

A block of mass M= 4 kg of height and breath b is placed on a rough plank of same mass M . A light inextensible string is connected to the upper end of the block and passed through a light smooth pulley as shown in figure. A mass m =1 kg is hung to the other end of the string. a. What should be the minimum value of coefficient of friction between the block and the plank so that, there is no slipping between the block and the wedge? b. Find the minimum value of b//h so that the block does not topple over the plank, friction is absent between the plank and the ground.

A uniform cubical block of mass M is attached to a pulley. One end of a string, passing over the pulley is fixed to a light pole while is fixed on the bigger block and its another end is attached to a block of mass m as shown in figure. The maximum value of the mass m so that the block does not topple is : (string and pulley are ideal)

A block is rotating in contact with vertical wall (rotor) as shown. Find the minimum value of omega so that the block does not slide down.

A rectangulat block of refractive index mu is placed on a printed page lying on a horizontal surface as shown in Fig. , Find the minimum value of mu so that the letter L on the page is not visible from any of the vertical sides.

Three blocked A,B and C are placed one over the other as shown in figure. Draw free body diagram of all the three blocks.

What is the minimum value of the mass M so that the block is lifted off the table at the instant shown in the diagram ? Assume that the blocks are initially at rest. .

A homogeneous chain of length L lie on a table. If the coefficent of friction is mu , find the maximum length L_(1) of the chain which can hang from the edge of the table without the chain sliding down. (b) Consider the situation as shown in the figure. Find teh minimum value of m so that the blocks do not move.

The coefficient of static friction mu_(s) between block A of mass 2kg and the table as shown in is 0.1 What would be the maximum mass value of blocks B so that the two bloks do not move ? The string and the pulley are assumed to be smooth and massless (g = 10m//s^(2)) .