Class 11 Physics MCQs | 100 Questions | Gravitation
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Class 11 Physics | Gravitation MCQs with Answers – Part 1

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1. Gravitation is best described as the interaction by which
ⓐ. only magnets attract other objects
ⓑ. any two masses attract each other
ⓒ. only charged bodies exert force on each other
ⓓ. only Earth attracts nearby bodies
2. A stone released from rest near Earth falls downward mainly because
ⓐ. air pushes it downward with constant force
ⓑ. the stone loses all its mass after release
ⓒ. the stone moves only when it touches Earth
ⓓ. Earth exerts a gravitational pull on it
3. Two metal spheres are placed far apart in deep space, away from other bodies. Their mutual gravitational force is best described as
ⓐ. zero because there is no air between them
ⓑ. present only if the spheres are electrically charged
ⓒ. attractive along the line joining their centres
ⓓ. repulsive because both objects have mass
4. Use the arrangement described below: Object \(P\) is on the left and object \(Q\) is on the right. The gravitational force on \(P\) due to \(Q\) acts
ⓐ. toward the right, along \(PQ\)
ⓑ. perpendicular to the line \(PQ\)
ⓒ. toward the left, away from \(Q\)
ⓓ. vertically upward, independent of \(Q\)
5. In the notation of gravitation, the symbol \(G\) represents
ⓐ. the local acceleration due to gravity near a planet
ⓑ. the universal gravitational constant
ⓒ. the orbital speed of a satellite
ⓓ. the weight of a body in newtons
6. Near the surface of Earth, \(g\) is used to denote
ⓐ. Earth’s centre-to-surface radius
ⓑ. the universal gravitational constant
ⓒ. free-fall acceleration near Earth
ⓓ. the gravitational mass of Earth
7. The SI unit of \(g\) is
ⓐ. \( \text{N m}^2\,\text{kg}^{-2} \)
ⓑ. \( \text{m s}^{-2} \)
ⓒ. \( \text{J kg}^{-1} \)
ⓓ. \( \text{kg} \)
8. The missing SI unit in \(G = 6.67\times10^{-11}\,\_\_\_\_\) is
ⓐ. \( \text{N kg}^{-1} \)
ⓑ. \( \text{N m}^2\,\text{kg}^{-2} \)
ⓒ. \( \text{m s}^{-2} \)
ⓓ. \( \text{kg m}^{-2}\,\text{s}^{-1} \)
9. When the separation between two point masses is doubled while both masses remain unchanged, the gravitational force becomes
ⓐ. \(2\) times the original force
ⓑ. \(\frac{1}{2}\) of the original force
ⓒ. \(\frac{1}{4}\) of the original force
ⓓ. \(4\) times the original force
10. For two spherical bodies separated by a gap, the distance \(r\) in the gravitational force formula is measured
ⓐ. from the top of one body to the bottom of the other
ⓑ. from centre to centre
ⓒ. from surface to surface
ⓓ. from the heavier body’s surface to the lighter body’s centre
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