Displacement vs time graph
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Q. The distance-time graph of an object is shown in the figure. The object -
- is at rest.
- moves with a constant speed.
- moves with a constant velocity.
- moves with a constant acceleration.
Q.
If the distance-time graph is parallel to the time axis, then what can you infer about the body?
Q. Distance-time graph for a particle moving with a constant speed will be
- Circle
- Straight line
- Polygon
- Stairlike line
Q. If the slope of a line on x-t curve is positive, the velocity is negative.
- True
- False
Q. A displacement s v/s time t curve of a particle is shown in the figure. The maximum instantaneous velocity vm of the particle is around the point
- S with vm≈ 2 m/s
- R and vm≈2 m/s
- Q and vm≈1 m/s
- R and vm≈0.5 m/s
Q. Identify the incorrect displacement-time curve which does not represent motion in one dimension.
Q. The displacement-time graph & the position time graph will never coincide .
- True
- False
Q. Figure (i) and (ii) below show the displacement time graphs of two particles moving along the x–axis. We can say that
- Both the particles are speeding up.
- Both the particles are speeding down.
- Particle (i) is speeding up while particle (ii) is speeding down.
- Particle (i) is speeding down while particle (ii) is speeding up.
Q. Identify the incorrect displacement-time curve which does not represent motion in one dimension.
Q. Distance-time graph for a particle moving with a constant speed will be
- Circle
- Straight line
- Polygon
- Stairlike line
Q.
Figure depicts the motion of a particle moving along an x axis with a constant acceleration. The figure's vertical scaling is set by xs = 6.0 m. What is the particle's acceleration?
- 4 m/s2
+4 m/s2
+ 1 m/s2
+ 2 m/s2
Q. The displacement-time graph of a moving object is shown in figure. Which of the following velocity-time graphs could represent the motion of the same body?
Q. If the slope of a line on x-t curve is positive, the velocity is negative.
- True
- False
Q. The average velocity of the object over the time interval (2 s to 4 s) will be (here x is the position of the object)
- 4 m/s
- 2 m/s
- 8 m/s
- 6 m/s
Q. The displacement-time graph of a moving object is shown in figure. Which of the following velocity-time graphs could represent the motion of the same body?
Q. For the displacement-time graph shown in figure, the ratio of the magnitudes of the instantaneous velocities during t=1 s and t=4 s is
- 1 : 1
- 2 : 1
- 1 : 2
- 3 : 2
Q. The displacement of a particle as a function of time is shown in the figure. It indicates
- the particle starts with a certain velocity, but the motion is retarded and finally the particle stops.
- the velocity of the particle decreases.
- the acceleration of the particle is in opposite direction to the velocity.
- the particle starts with a constant velocity, the motion is accelerated and finally the particle moves with another constant velocity.
Q.
Figure depicts the motion of a particle moving along an x axis with a constant acceleration. The figure's vertical scaling is set by xs = 6.0 m. What is the particle's acceleration?
- 4 m/s2
+4 m/s2
+ 1 m/s2
+ 2 m/s2
Q. Figure (i) and (ii) below shows the parabolic displacement time graphs of two particles moving along the x-axis. We can say that
- both the particles are speeding up.
- both the particles are speeding down.
- particle (i) is speeding up while particle (ii) is speeding down.
- particle (i) is speeding down while particle (ii) is speeding up.
Q. Assertion: In the s–t graph shown in the figure, the velocity of the particle is negative and acceleration is positive.
Reason: The slope of s–t graph is negative and increasing in magnitude.
Reason: The slope of s–t graph is negative and increasing in magnitude.
- Both assertion and reason are correct and reason is the correct explanation of assertion.
- Both assertion and reason are correct and reason is not the correct explanation of assertion.
- Assertion is true but reason is false.
- Assertion is false but reason is true.
Q. Displacement - time graph of a body travelling in a straight line is shown in the figure.
Velocity-time graph for the motion of the body will be
Velocity-time graph for the motion of the body will be