a man places a chain of mass m and length l on a table

A man places a chain of mass $$m$$ and length $$L$$ on a table slowly. Initially the lower end of the chain just touches the table. The man drops the chain when half of the chain is in vertical position. Then work done by the man in this process is

A. $$ - mg\frac{L}{2}$$

B. $$ - \frac{{mgL}}{4}$$

C. $$ - \frac{{3mgL}}{8}$$

D. $$ - \frac{{mgL}}{8}$$

Answer : $$ - \frac{{3mgL}}{8}$$

Solution :
The work done by man is negative of magnitude of decreases in potential energy of chain
Work Energy and Power mcq solution image

$$\eqalign{ & \Delta U = mg\frac{L}{2} - \frac{m}{2}g\frac{L}{4} = 3mg\frac{L}{8} \cr & \therefore W = - \frac{{3mgL}}{8} \cr} $$

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Basic Physics >> Work Energy and Power

Releted Question 1

If a machine is lubricated with oil-

A. the mechanical advantage of the machine increases.

B. the mechanical efficiency of the machine increases.

C. both its mechanical advantage and efficiency increase.

D. its efficiency increases, but its mechanical advantage decreases.

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Releted Question 2

Two masses of $$1 \,gm$$ and $$4 \,gm$$ are moving with equal kinetic energies. The ratio of the magnitudes of their linear momenta is-

A. $$4:1$$

B. $$\sqrt 2 :1$$

C. $$1:2$$

D. $$1:16$$

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Releted Question 3

A particle of mass $$m$$ is moving in a circular path of constant radius $$r$$ such that its centripetal acceleration $${a_c}$$ is varying with time $$t$$ as $${a_c} = {k^2}r{t^2}$$ where $$k$$ is a constant. The power delivered to the particles by the force acting on it is:

A. $$2\pi m{k^2}{r^2}t$$

B. $$m{k^2}{r^2}t$$

C. $$\frac{{\left( {m{k^4}{r^2}{t^5}} \right)}}{3}$$

D. Zero

View Answer

Releted Question 4

A spring of force-constant $$k$$ is cut into two pieces such that one piece is double the length of the other. Then the long piece will have a force-constant of-

A. $$\left( {\frac{2}{3}} \right)k$$

B. $$\left( {\frac{3}{2}} \right)k$$

C. $$3k$$

D. $$6k$$

View Answer

A man places a chain of mass $$m$$ and length $$L$$ on a table slowly. Initially the lower end of the chain just touches the table. The man drops the chain when half of the chain is in vertical position. Then work done by the man in this process is

Releted MCQ Question on
Basic Physics >> Work Energy and Power

If a machine is lubricated with oil-

Two masses of $$1 \,gm$$ and $$4 \,gm$$ are moving with equal kinetic energies. The ratio of the magnitudes of their linear momenta is-

A particle of mass $$m$$ is moving in a circular path of constant radius $$r$$ such that its centripetal acceleration $${a_c}$$ is varying with time $$t$$ as $${a_c} = {k^2}r{t^2}$$ where $$k$$ is a constant. The power delivered to the particles by the force acting on it is:

A spring of force-constant $$k$$ is cut into two pieces such that one piece is double the length of the other. Then the long piece will have a force-constant of-

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Work Energy and Power

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A man places a chain of mass $$m$$ and length $$L$$ on a table slowly. Initially the lower end of the chain just touches the table. The man drops the chain when half of the chain is in vertical position. Then work done by the man in this process is

Releted MCQ Question on Basic Physics >> Work Energy and Power

If a machine is lubricated with oil-

Two masses of $$1 \,gm$$ and $$4 \,gm$$ are moving with equal kinetic energies. The ratio of the magnitudes of their linear momenta is-

A particle of mass $$m$$ is moving in a circular path of constant radius $$r$$ such that its centripetal acceleration $${a_c}$$ is varying with time $$t$$ as $${a_c} = {k^2}r{t^2}$$ where $$k$$ is a constant. The power delivered to the particles by the force acting on it is:

A spring of force-constant $$k$$ is cut into two pieces such that one piece is double the length of the other. Then the long piece will have a force-constant of-

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