a block of mass m is connected to another block of mass m

A block of mass $$m$$ is connected to another block of mass $$M$$ by a spring (massless) of spring constant $$k.$$ The block are kept on a smooth horizontal plane. Initially the blocks are at rest and the spring is unstretched. Then a constant force $$F$$ starts acting on the block of mass $$M$$ to pull it. Find the force of the block of mass $$m.$$

A. $$\frac{{MF}}{{\left( {m + M} \right)}}$$

B. $$\frac{{mF}}{M}$$

C. $$\frac{{\left( {M + m} \right)F}}{m}$$

D. $$\frac{{mF}}{{\left( {m + M} \right)}}$$

Answer : $$\frac{{mF}}{{\left( {m + M} \right)}}$$

Solution :
Drawing free body-diagrams for $$m\& M,$$
Laws of Motion mcq solution image

we get $$T = ma$$ and $$F - T = Ma$$
where $$T$$ is force due to spring
$$\eqalign{ & \Rightarrow F - ma = Ma\,{\text{or,}}\,F = Ma + ma \cr & \therefore a = \frac{F}{{M + m}} \cr} $$
Now, force acting on the block of mass $$m$$ is
$$ma = m\left( {\frac{F}{{M + m}}} \right) = \frac{{mF}}{{m + M}}.$$

Releted MCQ Question on
Basic Physics >> Laws of Motion

Releted Question 1

A ship of mass $$3 \times {10^7}\,kg$$ initially at rest, is pulled by a force of $$5 \times {10^4}\,N$$ through a distance of $$3m.$$ Assuming that the resistance due to water is negligible, the speed of the ship is

A. $$1.5 m/sec.$$

B. $$60 m/sec.$$

C. $$0.1 m/sec.$$

D. $$5 m/sec.$$

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Releted Question 2

The pulleys and strings shown in the figure are smooth and of negligible mass. For the system to remain in equilibrium, the angle $$\theta $$ should be

A. $${0^ \circ }$$

B. $${30^ \circ }$$

C. $${45^ \circ }$$

D. $${60^ \circ }$$

View Answer

Releted Question 3

A string of negligible mass going over a damped pulley of mass $$m$$ supports a block of mass $$M$$ as shown in the figure. The force on the pulley by the clamp is given by

A. $$\sqrt 2 \,{\text{Mg}}$$

B. $$\sqrt 2 \,{\text{mg}}$$

C. $$\sqrt {{{\left( {M + m} \right)}^2} + {m^2}} g$$

D. $$\sqrt {{{\left( {M + m} \right)}^2} + {M^2}} g$$

View Answer

Releted Question 4

The string between blocks of mass $$m$$ and $$2m$$ is massless and inextensible. The system is suspended by a massless spring as shown. If the string is cut find the magnitudes of accelerations of mass $$2m$$ and $$m$$ (immediately after cutting)

A. g, g

B. $$g,\frac{g}{2}$$

C. $$\frac{g}{2},g$$

D. $$\frac{g}{2},\frac{g}{2}$$

View Answer

Releted MCQ Question on
Basic Physics >> Laws of Motion

A ship of mass $$3 \times {10^7}\,kg$$ initially at rest, is pulled by a force of $$5 \times {10^4}\,N$$ through a distance of $$3m.$$ Assuming that the resistance due to water is negligible, the speed of the ship is

The pulleys and strings shown in the figure are smooth and of negligible mass. For the system to remain in equilibrium, the angle $$\theta $$ should be

A string of negligible mass going over a damped pulley of mass $$m$$ supports a block of mass $$M$$ as shown in the figure. The force on the pulley by the clamp is given by

The string between blocks of mass $$m$$ and $$2m$$ is massless and inextensible. The system is suspended by a massless spring as shown. If the string is cut find the magnitudes of accelerations of mass $$2m$$ and $$m$$ (immediately after cutting)

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Releted MCQ Question on Basic Physics >> Laws of Motion

A ship of mass $$3 \times {10^7}\,kg$$ initially at rest, is pulled by a force of $$5 \times {10^4}\,N$$ through a distance of $$3m.$$ Assuming that the resistance due to water is negligible, the speed of the ship is

The pulleys and strings shown in the figure are smooth and of negligible mass. For the system to remain in equilibrium, the angle $$\theta $$ should be

A string of negligible mass going over a damped pulley of mass $$m$$ supports a block of mass $$M$$ as shown in the figure. The force on the pulley by the clamp is given by

The string between blocks of mass $$m$$ and $$2m$$ is massless and inextensible. The system is suspended by a massless spring as shown. If the string is cut find the magnitudes of accelerations of mass $$2m$$ and $$m$$ (immediately after cutting)

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