Question

The elevator shown in fig. is descending with an acceleration of $$2\,m/{s^2}.$$ The mass of the block $$A = 0.5\,kg.$$ The force exerted by the block $$A$$ on block $$B$$ is

A. $$2\,N$$

B. $$4\,N$$

C. $$6\,N$$

D. $$8\,N$$

Answer : $$4\,N$$

Solution :
$$R = mg - ma = 0.5 \times 10 - 0.5 \times 2 = 5 - 1 = 4\,N$$

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. $$5 m/sec.$$

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. $${60^ \circ }$$

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

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

Practice More Releted MCQ Question on
Laws of Motion

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Basic Physics Unit and Measurement Kinematics Laws of Motion Friction Uniform Circular Motion Impulse Momentum Work Energy and Power Rotational Motion Gravitation Mechanical Properties of Solids and Fluids

Heat and Thermodynamics Thermodynamics Thermal Expansion Conduction Radiation Calorimetry Kinetic Theory of Gases

Electrostatics and Magnetism Electric Charges Electric Field Electric Potential Capacitors and Dielectrics Magnetic Effect of Current Magnetic Materials Electromagnetic Waves Electric Current Electromagnetic Induction Alternating Current Semiconductors and Electronic Devices

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Modern Physics Dual Nature of Matter and Radiation Atoms And Nuclei Atoms or Nuclear Fission and Fusion Radioactivity Modern Physics Miscellaneous Semiconductors and Electronic Devices

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