Class 11 Physics MCQs | 100 More MCQs | System Of Particles
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Class 11 Physics | System of Particles and Rotational Motion MCQs with Answers – Part 2

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111. Consider the following statements about composite-body centre-of-mass calculations. I. Each simple part may be replaced by its mass placed at its own centre of mass. II. The coordinate origin can be chosen for convenience, but all part coordinates must then use the same origin. III. Removed material is treated as positive mass at the centre of the removed part.
ⓐ. II and III only
ⓑ. I, II, and III
ⓒ. I and III only
ⓓ. I and II only
112. A uniform rod of length \(4a\) has a segment of length \(a\) cut off from its right end. If the original rod's left end is taken as \(x=0\), the centre of mass of the remaining rod is
ⓐ. \(a\)
ⓑ. \(\frac{5a}{2}\)
ⓒ. \(2a\)
ⓓ. \(\frac{3a}{2}\)
113. The velocity of the centre of mass of a system of particles is given by
ⓐ. \(\vec{V}_{\text{CM}}=\frac{\sum m_i\vec{r}_i}{\sum m_i}\)
ⓑ. \(\vec{V}_{\text{CM}}=\frac{\sum m_i\vec{v}_i}{\sum m_i}\)
ⓒ. \(\vec{V}_{\text{CM}}=\sum \frac{\vec{v}_i}{m_i}\)
ⓓ. \(\vec{V}_{\text{CM}}=\left(\sum m_i\right)\left(\sum \vec{v}_i\right)\)
114. Two particles of masses \(2\,\text{kg}\) and \(3\,\text{kg}\) move along the \(x\)-axis with velocities \(4\,\text{m s}^{-1}\) and \(-1\,\text{m s}^{-1}\), respectively. The velocity of the centre of mass is
ⓐ. \(5\,\text{m s}^{-1}\)
ⓑ. \(1\,\text{m s}^{-1}\)
ⓒ. \(2\,\text{m s}^{-1}\)
ⓓ. \(3\,\text{m s}^{-1}\)
115. A two-particle system has equal masses. One particle moves east with speed \(v\), and the other moves west with the same speed \(v\). The velocity of the centre of mass is
ⓐ. \(v\) east
ⓑ. \(v\) west
ⓒ. zero
ⓓ. \(2v\) east
116. The acceleration of the centre of mass is expressed as
ⓐ. \(\vec{A}_{\text{CM}}=\frac{\sum m_i\vec{a}_i}{\sum m_i}\)
ⓑ. \(\vec{A}_{\text{CM}}=\sum \frac{\vec{a}_i}{m_i}\)
ⓒ. \(\vec{A}_{\text{CM}}=\frac{\sum m_i\vec{v}_i}{\sum m_i}\)
ⓓ. \(\vec{A}_{\text{CM}}=\left(\sum m_i\right)\left(\sum \vec{a}_i\right)\)
117. A system consists of two particles of masses \(m\) and \(3m\). Their accelerations along a line are \(4a\) and \(-2a\), respectively. The acceleration of the centre of mass is
ⓐ. \(-\frac{a}{2}\)
ⓑ. \(+\frac{a}{2}\)
ⓒ. \(-\frac{3a}{2}\)
ⓓ. \(+\frac{3a}{2}\)
118. A firecracker initially at rest explodes into two fragments on a smooth horizontal surface. During the short explosion, horizontal external force is negligible. The centre of mass
ⓐ. starts moving in the direction of the heavier fragment
ⓑ. starts moving in the direction of the lighter fragment
ⓒ. remains at rest
ⓓ. moves upward with increasing speed
119. A system has total mass \(M\). If the net external force on it is \(\vec{F}_{\text{ext}}\), the centre-of-mass acceleration is connected by
ⓐ. \(\vec{F}_{\text{ext}}=\sum m_i\vec{r}_i\)
ⓑ. \(\vec{F}_{\text{ext}}=M\vec{V}_{\text{CM}}\)
ⓒ. \(\vec{F}_{\text{ext}}=M\vec{A}_{\text{CM}}\)
ⓓ. \(\vec{F}_{\text{ext}}=\frac{\vec{A}_{\text{CM}}}{M}\)
120. A \(10\,\text{kg}\) system has a net external force of \(30\,\text{N}\) acting toward the positive \(x\)-direction. The acceleration of its centre of mass is
ⓐ. \(3\,\text{m s}^{-2}\)
ⓑ. \(20\,\text{m s}^{-2}\)
ⓒ. \(0.3\,\text{m s}^{-2}\)
ⓓ. \(300\,\text{m s}^{-2}\)
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