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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201. For a non-zero displacement \(\Delta\vec{r}\) during a positive time interval \(\Delta t\), the direction of \(\vec{v}_{\text{avg}}\) is:
ⓐ. opposite to \(\Delta\vec{r}\)
ⓑ. perpendicular to \(\Delta\vec{r}\)
ⓒ. the same as \(\Delta\vec{r}\)
ⓓ. always along the positive \(x\)-axis
202. A particle covers a total path length of \(100\,\text{m}\) in \(20\,\text{s}\), but its displacement is \(60\,\text{m}\) east. Its average speed and average velocity are:
ⓐ. \(5\,\text{m s}^{-1}\) and \(3\,\text{m s}^{-1}\) east
ⓑ. \(3\,\text{m s}^{-1}\) and \(5\,\text{m s}^{-1}\) east
ⓒ. both \(5\,\text{m s}^{-1}\) east
ⓓ. both \(3\,\text{m s}^{-1}\) without direction
203. Instantaneous velocity in a plane is best described as:
ⓐ. average velocity over an infinitesimal interval
ⓑ. the total distance divided by total time for the whole path
ⓒ. the product of displacement and time interval
ⓓ. the velocity found only at the final point of a journey
204. At a point on a smooth curved path, the instantaneous velocity of a moving body is directed:
ⓐ. toward the origin of the coordinate system
ⓑ. along the chord joining the starting and ending points
ⓒ. always along the positive \(x\)-axis
ⓓ. along the tangent to the path at that point
205. The position vector of a body is \(\vec{r}(t)=2t^2\,\hat{i}+(3t+1)\hat{j}\), where \(\vec{r}\) is in \(\text{m}\) and \(t\) is in \(\text{s}\). Its instantaneous velocity at \(t=2\,\text{s}\) is:
ⓐ. \(4\,\text{m s}^{-1}\hat{i}+3\,\text{m s}^{-1}\hat{j}\)
ⓑ. \(8\,\text{m s}^{-1}\hat{i}+3\,\text{m s}^{-1}\hat{j}\)
ⓒ. \(8\,\text{m s}^{-1}\hat{i}+7\,\text{m s}^{-1}\hat{j}\)
ⓓ. \(2\,\text{m s}^{-1}\hat{i}+3\,\text{m s}^{-1}\hat{j}\)
206. If the instantaneous velocity of a body is \(\vec{v}=6\,\text{m s}^{-1}\hat{i}-8\,\text{m s}^{-1}\hat{j}\), its instantaneous speed is:
ⓐ. \(2\,\text{m s}^{-1}\)
ⓑ. \(10\,\text{m s}^{-1}\)
ⓒ. \(14\,\text{m s}^{-1}\)
ⓓ. \(48\,\text{m s}^{-1}\)
207. Use the graph description below.
A body moves along a smooth curve in the \(x\)-\(y\) plane. At point \(P\), the tangent to the curve points toward the northeast.
The direction of the instantaneous velocity at \(P\) is:
ⓐ. toward the northeast
ⓑ. toward the centre of the coordinate system
ⓒ. along the straight line from the initial point to \(P\)
ⓓ. opposite to the tangent at \(P\)
208. A table gives position vectors and claimed velocity vectors.
RowPosition vector \(\vec{r}(t)\)Claimed \(\vec{v}(t)\)
P\(3t\,\hat{i}+2t^2\,\hat{j}\)\(3\hat{i}+4t\,\hat{j}\)
Q\((t^2+1)\hat{i}+5t\,\hat{j}\)\(2t\,\hat{i}+5\hat{j}\)
R\(4\hat{i}+t^3\,\hat{j}\)\(4\hat{i}+3t^2\,\hat{j}\)
S\(-2t\,\hat{i}+7\hat{j}\)\(-2\hat{i}+0\hat{j}\)
The row that contains a differentiation error is:
ⓐ. Row P
ⓑ. Row Q
ⓒ. Row R
ⓓ. Row S
209. Three statements about instantaneous velocity are given. I. It is written as \(\vec{v}=\frac{d\vec{r}}{dt}\). II. Its magnitude is the instantaneous speed. III. Its direction is always the same as the average velocity over any long interval. The supported statements are:
ⓐ. I only
ⓑ. I and II only
ⓒ. II and III only
ⓓ. I, II, and III
210. A moving body has the same average velocity over a time interval as another body. It does not necessarily mean that their instantaneous velocities at every instant are the same because:
ⓐ. average velocity only gives net displacement per unit time over the interval
ⓑ. instantaneous velocity has no direction
ⓒ. average velocity is always larger than instantaneous velocity
ⓓ. instantaneous velocity is calculated from total distance
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