Physics, asked by kashyaprohinimalik, 5 months ago

A box is thrown at point A with a velocity of 6 m / s on an inclined plane as in the figure. Since the kinetic friction coefficient of the surface of the inclined plane is 0.11, how many meters will this box travel upward on the surface? (Take the gravitational acceleration g = 9.81 m / s2)​

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Answered by kuhu005
2

Explanation:

Here angle of repose α=tan−1(μs)

α=tan−1(21)=300

The angle of inclination is greater than the angle of respose. The friction force on the block will act in upward direction.

For the acceleration of block,

Mgsinθ−μN=Ma

⇒a=gsinθ−μgcosθ

=10(sin370−0.5cos370)

b. If external force F= 75N is applied on the block.

Let us find net driving force acting on block. Parallel to inclined two external forces are acting one in upward direction F and other is the component of weight in the direction downward the plane, Mgsinθ.

Net driving force fdriving=F−Mgsinθ

⇒Fdriving=75−10×10×sin370=75−60=15N

Maximum resisting force that oppose relative motion is maximum friction force (or flim)

flim=μsMgcosθ

=0.5×10×10×cos370=40N

Here flim<fresisting. Hence, the block will not move and friction will be static will act in the direction opposite to driving force, i.e., in downward direction.

c. To move block, the least value of driving force should be 40 N. But in above case, driving force is 15N (up). Hence, if we add △F=25N in upward direction, the block will overcome maximum resistence force (or friction) and starts moving up.

∴60+40=75+△F⇒△F=25N

d. As resisting force which is maximum friction force is 40N and the component of weight parallel to incline is 60 N and acting downward. If we remove F, then the driving forces will be the only component of the weight in the direction downward the incline plane. In this case, friction will act in upward direction. Hence, the required value of F to make block in equilibrium,

F + 40 = 60

or F = 20N

I hope it will helpful to you give thanks to my answer

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