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Find maximum force for which they can mo...

Find maximum force for which they can move together

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In above example find maximum F for which two blocks will move together.

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Find the maximum possible force which can be applied to the 8 kg block shown in figure-2.94 to move both the blocks together if bottom surface is (a) frictionless, (b) having friction coefficient 0.3. Take g = 10m//s^(2)

The minimum force F for which the block starts moving is Find x

A lift can hold 2000kg, friction is 4000N and power provided is 60HP. (1 HP = 746W) Find the maximum speed with which lift can move up.

A car of mass 800 kg moves on a circular track of radius 40 m . If the coefficient of friction is 0.5, then maximum velocity with which the car can move is

Find out the maximum value of F for which both the blocks will move together.

There are two block as shown in the figure of masses 1kg and 4kg . Friction coefficient between any two surfaces are 0.2 then find maximum value of horizontal force F so that both blocks moves together.

The coefficient of friction between the blocks are mu_(s) = 0.3 and mu_(k) = 0.2 . (a) Find the maximum value of F so that the blocks move together. (b) If force F is twice the value found in (a) , find the acceleration of each block.

ANURAG MISHRA-FORCE ANALYSIS-Example
  1. Find Force acting on object B.

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  2. If a force of 60N is applied on the upper block will the two blocks mo...

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  3. Find maximum force for which they can move together

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  4. Coefficient of friction between 5 kg and 10 kg block is 0.5. If fricti...

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  5. An object is given a quick push up an inclined plane. It slides up and...

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  6. A time varying for F=10 sqrt(2) t starts acting on the 3 kg block lept...

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  7. A block of mass 3 kg slides on a rough fixed inclined plane of 37^(@) ...

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  8. A car has headlight which can illuminate a horizontal straight road in...

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  9. A block of mass 2 kg is placed on the floor (mu=0.4). A horizontal for...

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  10. In Fig block 1 is placed on top of block 2 .Both of then have a mass o...

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  11. A block of mass m rests on a rough floor . The coefficient of friction...

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  12. A block of mass m rests on a bracket of mass M. The coefficients of fr...

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  13. A block of mass m is supported on a rough wall by applying a force in ...

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  14. A block is kept on a rought incline whose angle of inclination is grea...

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  15. A wooden block slides down the right angle channel as shown in Fig. Th...

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  16. Two blocks of mass 'm' and 'M, are connect to the ends of a string pas...

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  17. Two blocks are kept an incline in contact with each other. Masses of b...

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  18. Four blocks are arranged on a smooth horizontal surface as shown. The ...

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  19. A block of mass m rests on top of a block of mass 2m which ls kept on ...

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  20. A 4 kg block ls placed on top of a long .12 kg block, which is acceler...

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