Find all the normal reaction `N_(AG)`,`N_(BG)`,`N(AB)` and the acceleration of A and B (All surfaces are friction less):

In the sitution shown in figure there is no friction between 2 kg and ground. a. For what maximum value of force F can all three blocks move together? b. Find the value of force F at which sliding starts at other rough surfaces. c. Find acceleration of all blocks, nature and value of friction force for the following values of force F (i) 10N (ii) N and (iii) 25 N

For all n in N, Sigma n

The system shown in fig. is given an acceleration a towards left. Assuming all the surfaces to be frictionless, find the normal reactions applied by wedge on the sphere.

For a car taking a turn on a horizontal surface, let N_(1) and N_2 be the normal reactions of the road on the inner and outer wheels respectively

Figure shows three blocks on a rough surface under the influene of a force P of the same magnitude in all the three cases. Coefficient of friction is the same between each block and the ground. What possile relation holds between the magnitudes of normal reaction and friction force?(Assume that the blocks do not overturn about edge.) Here f_(A), f_(B) and f_(C) are frictional forces and N_(A), N_(B) and N_(C) are reactions.

Consider three blocks placed one over the other as shown in Fig. Let as now pull the blocks with the force of magnitudes 18 N, 100 N and 15 N Take m_(1) = m_(2) = m_(3) = 10 kg If the coefficient of static and kinetic friction between all contacting surface are mu_(g) = 0.2 respectively find the (a) Acceleration of the block s (b) Friction at each surface

All N_(2) fixers belong to

Consider the situation shown in figure. All the surfaces are frictions and the string and the pulley are light. Find the magnitude of the acceleration of the two blocks.

Let n(A) = n, then the number of all relations on A, is

A cylinder rests in a supporting carriage as shown. The side AB of carriage makes an angle 30^(@) with the horizontal and side BC is vertical. The carriage lies on a fixed horizontal surface and is being puplled towards left with an horizontal acceleration a . The magnitude of normal reactions exerted by side AB and BC of carriage on the cylinder be N_(AB) and N_(BC) resectively. Neglect friction everywhere. Then as the magnnitude of acceleration a of the carriage is increased, pick up the correct statement: