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If the coefficient of friction between the block of mass 5kg and wall is 0.5 then minimum force F required to hold the block with the wall is ( g= 10 m/ s²)?
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If the coefficient of friction between the block of mass 5kg and wall ...


Calculation of Minimum Force Required to Hold the Block

To calculate the minimum force required to hold the block against the wall, we need to consider the forces acting on the block and use the concept of equilibrium.

Forces Acting on the Block:
- Weight of the block (mg) = 5 kg * 10 m/s² = 50 N
- Normal force from the wall (N) = 0 (since the block is not moving perpendicular to the wall)
- Force of friction (f) = coefficient of friction (μ) * Normal force = 0.5 * N

Equilibrium Condition:
For the block to be in equilibrium, the sum of all forces acting on it should be zero. Therefore, the force required to hold the block against the wall (F) should balance the force of friction (f).

Calculation:
- F - f = 0
- F - 0.5N = 0
- F - 0.5 * 50 = 0
- F - 25 = 0
- F = 25 N

Therefore, the minimum force required to hold the block against the wall is 25 N. This force is necessary to prevent the block from sliding down the wall due to the force of gravity.
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If the coefficient of friction between the block of mass 5kg and wall is 0.5 then minimum force F required to hold the block with the wall is ( g= 10 m/ s²)?
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If the coefficient of friction between the block of mass 5kg and wall is 0.5 then minimum force F required to hold the block with the wall is ( g= 10 m/ s²)? for NEET 2024 is part of NEET preparation. The Question and answers have been prepared according to the NEET exam syllabus. Information about If the coefficient of friction between the block of mass 5kg and wall is 0.5 then minimum force F required to hold the block with the wall is ( g= 10 m/ s²)? covers all topics & solutions for NEET 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for If the coefficient of friction between the block of mass 5kg and wall is 0.5 then minimum force F required to hold the block with the wall is ( g= 10 m/ s²)?.
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