The displacement time graph of a moving particle is shown in the figure below. The instantaneous velocity of the particle is negative at the point:

     

1. D 2. F
3. C 4. E

Subtopic:  Graphs |
 86%
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A ball is thrown vertically upwards. Then the velocity-time \((v\text-t)\) graph will be:

1. 2.
3. 4.
Subtopic:  Graphs |
 68%
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In the following displacement \((x)\) versus time \((t)\) graph, at which points \(P, Q\) and \(R\) will the object's speed be increasing?

      

1. \(R\) only
2. \(P\) only
3. \(Q\) and \(R\) only
4. \(P,Q,R\)

Subtopic:  Graphs |
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A person standing on the floor of an elevator drops a coin. The coin reaches the floor in time t1 if the elevator is moving uniformly and time t2 if the elevator is stationary. Then:

1. \(t_1<t_2 \) or \(t_1>t_2 \) depending upon whether the lift is going up or down.
2. \(t_1<t_2 \)
3. \(t_1>t_2 \)
4. \(t_1=t_2 \)

Subtopic:  Relative Motion in One Dimension |
 52%
From NCERT
NEET - 2019
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A particle moves along a path \(ABCD\) as shown in the figure. The magnitude of the displacement of the particle from \(A\) to \(D\) is:

       

1. (5+102)m
2. \(10\) m
3. 152 m
4. \(15\) m

Subtopic:  Distance & Displacement |
 70%
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For the following acceleration versus time graph, the corresponding velocity versus displacement graph is:

 
 

1.    2.
3. 4.
Subtopic:  Graphs |
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A stone falls freely from rest from a height \(h\) and it travels a distance of \(\frac{9 h}{25}\) in the last second. The value of \(h\) is:

1. \(145\) m 2. \(100\) m
3. \(122.5\) m 4. \(200\) ms
Subtopic:  Uniformly Accelerated Motion |
 71%
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The initial velocity of a particle is \(u\) (at \(t=0\)) and the acceleration \(f\) is given by \(at\). Which of the following relation is valid?
1. \(v = u + a t^{2}\)
2. \(v = u + a \frac{t^{2}}{2}\)
3. \(v = u + a t\)
4. \(v= u\)

Subtopic:  Non Uniform Acceleration |
From NCERT
PMT - 1981
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Which of the following four statements is false?

1. A body can have zero velocity and still be accelerated.
2. A body can have a constant velocity and still have a varying speed.
3. A body can have a constant speed and still have a varying velocity.
4. The direction of the velocity of a body can change when its acceleration is constant.

Subtopic:  Instantaneous Speed & Instantaneous Velocity |
 66%
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Two cars \(A\) and \(B\) are travelling in the same direction with velocities \(v_1\) and \(v_2\) \((v_1>v_2).\) When the car \(A\) is at a distance \(d\) behind car \(B\), the driver of the car \(A\) applied the brake producing uniform retardation \(a\). There will be no collision when:
1. \(d < \frac{\left( v_{1} - v_{2} \right)^{2}}{2 a}\)
2. \(d < \frac{v_{1}^{2} - v_{2}^{2}}{2 a}\)
3. \(d > \frac{\left(v_{1} - v_{2}\right)^{2}}{2 a}\)
4. \(d > \frac{v_{1}^{2} - v_{2}^{2}}{2 a}\)

Subtopic:  Relative Motion in One Dimension |
 59%
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