- 1(current)
Q. No.The speed-time graph of a particle moving along a fixed direction is shown in the figure. Then the distance traversed by the particle between \(t=0\) s to \(10\) s is:
1. \(70\) m
2. \(60\) m
3. \(50\) m
4. \(40\) m
Various velocity-time graphs are given below. The graph representing motion where velocity changes direction is:
 |
 |
| (a) | (b) |
 |
 |
| (c) | (d) |
1. graph (a)
2. graph (b)
3. graph (c)
4. graph (d)
Different position-time graphs are given for objects moving in different conditions. The graph representing object moving with positive acceleration is
1. Graph \(\mathrm a\)
2. Graph \(\mathrm b\)
3. Graph \(\mathrm c\)
4. None of the above
| 1. | \(180~\text{m}\) | 2. | \(60~\text{m}\) |
| 3. | \(80~\text{m}\) | 4. | \(18~\text{m}\) |
A particle shows the distance-time curve as given in this figure. The maximum instantaneous velocity of the particle is around the point:
1. \(B\)
2. \(C\)
3. \(D\)
4. \(A\)
| (a) | Quantity \(B\) may represent time. |
| (b) | Quantity \(A\) is velocity if motion is uniform. |
| (c) | Quantity \(A\) is displacement if motion is uniform. |
| (d) | Quantity \(A\) is velocity if motion is uniformly accelerated. |
1. (a), (c), (d)
2. (a) only
3. (b) only
4. (d) only
| 1. |  |
2. |  |
| 3. |  |
4. |  |
The acceleration \((a)\)-time \((t)\) graph that best suits this motion is:
| 1. |  |
2. |  |
| 3. |  |
4. |  |
The figure given below shows the displacement and time, \((x\text -t)\) graph of a particle moving along a straight line:
The correct statement, about the motion of the particle, is:
| 1. | the particle moves at a constant velocity up to a time \(t_0\) and then stops. |
| 2. | the particle is accelerated throughout its motion. |
| 3. | the particle is accelerated continuously for time \(t_0\) then moves with constant velocity. |
| 4. | the particle is at rest. |
| 1. |  |
2. |  |
| 3. |  |
4. |  |
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Q. No.
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