Class 11 Physics MCQs |Top 100 Questions| Motion In A Plane
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Class 11 Physics | Motion in a Plane MCQs with Answers – Part 3

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211. The position vector of a body is \(\vec{r}(t)=(t^3-4t)\hat{i}+3t^2\hat{j}\), where \(\vec{r}\) is in \(\text{m}\) and \(t\) is in \(\text{s}\). Its speed at \(t=2\,\text{s}\) is:
ⓐ. \(4\sqrt{13}\,\text{m s}^{-1}\)
ⓑ. \(2\sqrt{13}\,\text{m s}^{-1}\)
ⓒ. \(4\sqrt{5}\,\text{m s}^{-1}\)
ⓓ. \(8\sqrt{13}\,\text{m s}^{-1}\)
212. For \(\vec{r}(t)=(3t^2-12t)\hat{i}+4t\hat{j}\), a learner says the body is at rest at \(t=2\,\text{s}\) because the \(x\)-component of velocity becomes zero then. The better conclusion is:
ⓐ. the body is at rest because \(v_x=0\)
ⓑ. the body is at rest because position has an \(i\)-component
ⓒ. the body is not at rest because \(v_y\neq0\)
ⓓ. the body is not moving only if \(t=0\,\text{s}\)
213. The position vector of a body is \(\vec{r}(t)=(t^2-4t)\hat{i}+5t\hat{j}\). At what time is its velocity perpendicular to the \(x\)-axis?
ⓐ. \(1\,\text{s}\)
ⓑ. \(4\,\text{s}\)
ⓒ. \(5\,\text{s}\)
ⓓ. \(2\,\text{s}\)
214. Use the graph information below.
At a certain instant, the slope of the \(x-t\) graph is \(3\,\text{m s}^{-1}\), and the slope of the \(y-t\) graph is \(-4\,\text{m s}^{-1}\).
The instantaneous speed at that instant is:
ⓐ. \(1\,\text{m s}^{-1}\)
ⓑ. \(5\,\text{m s}^{-1}\)
ⓒ. \(7\,\text{m s}^{-1}\)
ⓓ. \(12\,\text{m s}^{-1}\)
215. Assertion: Instantaneous velocity at a point on a curved path is along the tangent at that point. Reason: In the limiting process, the displacement over a very small time interval approaches the tangent direction.
ⓐ. Both Assertion and Reason are true, and Reason explains Assertion
ⓑ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓒ. Assertion is true, but Reason is false
ⓓ. Assertion is false, but Reason is true
216. A path is described as follows: near point \(P\), the body’s curve is momentarily horizontal, and the body is moving from left to right. The instantaneous velocity at \(P\) is:
ⓐ. vertically upward
ⓑ. vertically downward
ⓒ. horizontal toward the right
ⓓ. opposite to the direction of motion
217. Average acceleration in a plane is defined by:
ⓐ. \(\vec{a}_{\text{avg}}=\frac{\Delta\vec{r}}{\Delta t}\)
ⓑ. \(\vec{a}_{\text{avg}}=\vec{v}\Delta t\)
ⓒ. \(\vec{a}_{\text{avg}}=\frac{\text{total distance}}{\Delta t}\)
ⓓ. \(\vec{a}_{\text{avg}}=\frac{\Delta\vec{v}}{\Delta t}\)
218. A body can have non-zero acceleration even when its speed is constant if:
ⓐ. its velocity vector remains completely constant
ⓑ. its displacement is zero at every instant
ⓒ. the direction of its velocity changes
ⓓ. its time interval is not measured
219. The velocity of a body changes from \(\vec{v}_1=3\,\text{m s}^{-1}\hat{i}+4\,\text{m s}^{-1}\hat{j}\) to \(\vec{v}_2=-5\,\text{m s}^{-1}\hat{i}+10\,\text{m s}^{-1}\hat{j}\) in \(2\,\text{s}\). Its average acceleration is:
ⓐ. \(-4\,\text{m s}^{-2}\hat{i}+3\,\text{m s}^{-2}\hat{j}\)
ⓑ. \(4\,\text{m s}^{-2}\hat{i}-3\,\text{m s}^{-2}\hat{j}\)
ⓒ. \(-8\,\text{m s}^{-2}\hat{i}+6\,\text{m s}^{-2}\hat{j}\)
ⓓ. \(-1\,\text{m s}^{-2}\hat{i}+7\,\text{m s}^{-2}\hat{j}\)
220. A table compares velocity-change records.
RowVelocity change \(\Delta\vec{v}\)Time \(\Delta t\)Claimed \(\vec{a}_{\text{avg}}\)
P\(6\,\text{m s}^{-1}\hat{i}\)\(3\,\text{s}\)\(2\,\text{m s}^{-2}\hat{i}\)
Q\(-8\,\text{m s}^{-1}\hat{j}\)\(4\,\text{s}\)\(-2\,\text{m s}^{-2}\hat{j}\)
R\(5\,\text{m s}^{-1}\hat{i}+10\,\text{m s}^{-1}\hat{j}\)\(5\,\text{s}\)\(\text{m s}^{-2}\hat{i}+2\,\text{m s}^{-2}\hat{j}\)
S\(4\,\text{m s}^{-1}\hat{i}-6\,\text{m s}^{-1}\hat{j}\)\(2\,\text{s}\)\(2\,\text{m s}^{-2}\hat{i}+3\,\text{m s}^{-2}\hat{j}\)
The row that contains a sign error is:
ⓐ. Row P
ⓑ. Row Q
ⓒ. Row R
ⓓ. Row S
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