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MOTION IN A STRIGHT LINE

269697 A uniform moving cricket ball isturned back by hitting it with a bat for a very short time interval.Show the variation of its acceleration with time. (Takeacceleration in theback ward direction as positive)

1
2
3
4
MOTION IN A STRIGHT LINE

269692 Figure shows the displacement- time graph of a particle moving on the \(x\)-axis

1 theparticleis continuously going in positive \(X\) direction
2 the particleis at rest
3 the velocity increases up to atime \(t_{0}\) and then becomes constant.
4 the particlemoves at constant velocity up to a time \(t_{0}\) and then stops.
MOTION IN A STRIGHT LINE

269693 The variation of quantity \(A\) with quantity \(B\). plotted in the Fig. describes the motion of a particle in a straight line.
a) Quantity B may represent time
b) QuantityA isvelocity if motion is uniform
c) QuantityA isdisplacementif motionisuriform
d) Quantity A isvelocity if motion is uniformly accelerated.

1 \(a, c, d\)
2 \(b, c, d\)
3 \(a, b\)
4 \(c, d\)
MOTION IN A STRIGHT LINE

269694 The displacement-time graph of a moving particle is shown in Fig. The instantaneous velocity of the particle is negative at the point

1 \(D\)
2 \(F\)
3 \(C\)
4 \(E\)
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MOTION IN A STRIGHT LINE

269697 A uniform moving cricket ball isturned back by hitting it with a bat for a very short time interval.Show the variation of its acceleration with time. (Takeacceleration in theback ward direction as positive)

1
2
3
4
MOTION IN A STRIGHT LINE

269692 Figure shows the displacement- time graph of a particle moving on the \(x\)-axis

1 theparticleis continuously going in positive \(X\) direction
2 the particleis at rest
3 the velocity increases up to atime \(t_{0}\) and then becomes constant.
4 the particlemoves at constant velocity up to a time \(t_{0}\) and then stops.
MOTION IN A STRIGHT LINE

269693 The variation of quantity \(A\) with quantity \(B\). plotted in the Fig. describes the motion of a particle in a straight line.
a) Quantity B may represent time
b) QuantityA isvelocity if motion is uniform
c) QuantityA isdisplacementif motionisuriform
d) Quantity A isvelocity if motion is uniformly accelerated.

1 \(a, c, d\)
2 \(b, c, d\)
3 \(a, b\)
4 \(c, d\)
MOTION IN A STRIGHT LINE

269694 The displacement-time graph of a moving particle is shown in Fig. The instantaneous velocity of the particle is negative at the point

1 \(D\)
2 \(F\)
3 \(C\)
4 \(E\)
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MOTION IN A STRIGHT LINE

269697 A uniform moving cricket ball isturned back by hitting it with a bat for a very short time interval.Show the variation of its acceleration with time. (Takeacceleration in theback ward direction as positive)

1
2
3
4
MOTION IN A STRIGHT LINE

269692 Figure shows the displacement- time graph of a particle moving on the \(x\)-axis

1 theparticleis continuously going in positive \(X\) direction
2 the particleis at rest
3 the velocity increases up to atime \(t_{0}\) and then becomes constant.
4 the particlemoves at constant velocity up to a time \(t_{0}\) and then stops.
MOTION IN A STRIGHT LINE

269693 The variation of quantity \(A\) with quantity \(B\). plotted in the Fig. describes the motion of a particle in a straight line.
a) Quantity B may represent time
b) QuantityA isvelocity if motion is uniform
c) QuantityA isdisplacementif motionisuriform
d) Quantity A isvelocity if motion is uniformly accelerated.

1 \(a, c, d\)
2 \(b, c, d\)
3 \(a, b\)
4 \(c, d\)
MOTION IN A STRIGHT LINE

269694 The displacement-time graph of a moving particle is shown in Fig. The instantaneous velocity of the particle is negative at the point

1 \(D\)
2 \(F\)
3 \(C\)
4 \(E\)
For More Updates join with Us
NEET Test Series from KOTA - 10 Papers In MS WORD WhatsApp Here
MOTION IN A STRIGHT LINE

269697 A uniform moving cricket ball isturned back by hitting it with a bat for a very short time interval.Show the variation of its acceleration with time. (Takeacceleration in theback ward direction as positive)

1
2
3
4
MOTION IN A STRIGHT LINE

269692 Figure shows the displacement- time graph of a particle moving on the \(x\)-axis

1 theparticleis continuously going in positive \(X\) direction
2 the particleis at rest
3 the velocity increases up to atime \(t_{0}\) and then becomes constant.
4 the particlemoves at constant velocity up to a time \(t_{0}\) and then stops.
MOTION IN A STRIGHT LINE

269693 The variation of quantity \(A\) with quantity \(B\). plotted in the Fig. describes the motion of a particle in a straight line.
a) Quantity B may represent time
b) QuantityA isvelocity if motion is uniform
c) QuantityA isdisplacementif motionisuriform
d) Quantity A isvelocity if motion is uniformly accelerated.

1 \(a, c, d\)
2 \(b, c, d\)
3 \(a, b\)
4 \(c, d\)
MOTION IN A STRIGHT LINE

269694 The displacement-time graph of a moving particle is shown in Fig. The instantaneous velocity of the particle is negative at the point

1 \(D\)
2 \(F\)
3 \(C\)
4 \(E\)
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