Class 11 Physics MCQs | Again 100 Q&A | Work, Energy & Power
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Class 11 Physics | Work, Energy, and Power MCQs with Answers – Part 4

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311. A two-body isolated collision has initial kinetic energy \(120\,\text{J}\). After collision, the total kinetic energy is \(90\,\text{J}\). The value of \(K_{\text{after}}-K_{\text{before}}\) is
ⓐ. \(+30\,\text{J}\)
ⓑ. \(-30\,\text{J}\)
ⓒ. \(+210\,\text{J}\)
ⓓ. \(-210\,\text{J}\)
312. A collision-like event has no external impulse, and the total kinetic energy after the event is greater than before. The most suitable interpretation is that
ⓐ. momentum conservation must fail
ⓑ. internal energy has changed into kinetic energy
ⓒ. the event must be a perfectly elastic collision
ⓓ. kinetic energy cannot increase in an isolated system
313. Read the situation below and answer the question.
Two small carts move on a frictionless horizontal track. During a short interaction, a compressed spring between them is released. No external horizontal impulse acts on the two-cart system during the release.
The total momentum of the two carts and their total kinetic energy after release are best described as
ⓐ. momentum conserved, kinetic energy may increase
ⓑ. momentum not conserved, kinetic energy must remain constant
ⓒ. momentum conserved, kinetic energy must be zero
ⓓ. momentum not conserved, kinetic energy must decrease
314. In an isolated event, two objects initially at rest push apart because of internal energy release. Their momenta just after separation must be
ⓐ. equal and opposite in direction
ⓑ. equal in magnitude and same in direction
ⓒ. zero for both parts after separation
ⓓ. unrelated because kinetic energy increases
315. A body initially at rest explodes into two fragments of masses \(2\,\text{kg}\) and \(3\,\text{kg}\). The \(2\,\text{kg}\) fragment moves to the right with speed \(6\,\text{m s}^{-1}\). The velocity of the \(3\,\text{kg}\) fragment is
ⓐ. \(+4\,\text{m s}^{-1}\)
ⓑ. \(-4\,\text{m s}^{-1}\)
ⓒ. \(+9\,\text{m s}^{-1}\)
ⓓ. \(-9\,\text{m s}^{-1}\)
316. A stationary object separates into two parts. Part P has mass \(m\), and part Q has mass \(3m\). If part P moves with speed \(6v\), the speed of part Q is
ⓐ. \(2v\)
ⓑ. \(3v\)
ⓒ. \(6v\)
ⓓ. \(18v\)
317. Two fragments separate from rest with equal and opposite momenta. Fragment P has mass \(1\,\text{kg}\), and fragment Q has mass \(4\,\text{kg}\). The ratio of their kinetic energies \(K_P:K_Q\) is
ⓐ. \(1:4\)
ⓑ. \(4:1\)
ⓒ. \(1:1\)
ⓓ. \(2:1\)
318. An object at rest explodes into two fragments. One fragment has kinetic energy \(36\,\text{J}\), while the other has mass twice as large. If no external impulse acts, the kinetic energy of the heavier fragment is
ⓐ. \(18\,\text{J}\)
ⓑ. \(36\,\text{J}\)
ⓒ. \(72\,\text{J}\)
ⓓ. \(144\,\text{J}\)
319. Use the before-after information below.
StageInformation
Before separationTwo-part system at rest, total momentum \(0\)
After separationPart P moves right; part Q moves left
Energy sourceInternal stored energy of the system
The best conclusion is
ⓐ. momentum remains zero while kinetic energy is produced
ⓑ. total momentum becomes positive because one part moves right
ⓒ. kinetic energy stays zero because the system began at rest
ⓓ. the heavier part must always have greater kinetic energy
320. A \(4\,\text{kg}\) object at rest separates into two fragments of masses \(1\,\text{kg}\) and \(3\,\text{kg}\). If the \(1\,\text{kg}\) fragment has speed \(9\,\text{m s}^{-1}\), the total kinetic energy after separation is
ⓐ. \(27\,\text{J}\)
ⓑ. \(54\,\text{J}\)
ⓒ. \(72\,\text{J}\)
ⓓ. \(108\,\text{J}\)
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