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Test: Instantaneous Velocity & Speed Acceleration (April 22) - NEET MCQ


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10 Questions MCQ Test Daily Test for NEET Preparation - Test: Instantaneous Velocity & Speed Acceleration (April 22)

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Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 1

Speedometer measures the speed of the car in

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 1

Speedometer measures the speed of the car in km h−1.

Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 2

The position of an object moving along x-axis is given by x = a + bt2, where a = 8.5 m and b = 2.5 m s−2 and t is measured in seconds. The instantaneous velocity of the object at t = 2 s

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 2

Here, x = a + bt2

Where, a = 8.5m and b = 2.5ms−2

At t = 2s,
v = 2(2.5ms−2)(2s) = 10ms−1

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Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 3

The motion of a particle is described by x = x0(1 − e−kt); t ≥ 0; x0 > 0, k > 0. With what velocity does the particle start?

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 3

Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 4

The position x of a particle with respect to time t along x-axis is given by x = 9t2 −t3. where x is in metres and t is in seconds. What will be the position of this particle when it achieves maximum speed along the + x direction?

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 4

Given: x = 9t2 − t3

for Maximum speed, dv/dt
= 0 ⇒ 18 - 6t = 0
∴ t = 3s.
∴ xmax = 81m - 27m
= 54 m. (From x = 9t2 - t3)

Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 5

The position-time (x - t) graphs for two children A and B returning from their school O to their homes P and Q respectively are as shown in the figure. Choose the incorrect statement regarding these graphs.

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 5

As OP < OQ, A lives closer to the school than B.

(b) For x = 0, t = 0 for A; while t has some finite value for B. Therefore,

A starts from the school earlier than B.

(c) Slope of x - t graph is equal to the speed. Since the slope of x-t for B is greater than that for A. Therefore, B walks faster than A.

(d) Corresponding to points P and Q the value of t from x - t graphs for A and B is same. Thus, both A and B reach home at the same time.

Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 6

The area under acceleration-time graph gives

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 6

The vertical axis will represent the acceleration of the object. The slope of the acceleration graph will represent a quantity called the jerk. This jerk is the rate of change of the acceleration. The area under this acceleration graph represents the change in velocity. Also, this area under the acceleration-time graph for some time interval will be the change in velocity during that time interval. Multiplying this acceleration by the time interval will be equivalent to finding the area under the curve.

Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 7

A particle moving along a straight line has a velocity v m s−1, when it cleared a distance of x m. These two are connected by the relation   When its velocity is 1 m s−1, its acceleration is

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 7

Given: 

Squaring both sides, we get, v2=49+x
Differentiating both sides w.r.t. t, we get, 

Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 8

A particle moving with uniform acceleration has average velocities v1, v2 and v3 over the successive intervals of time t1, t2 and t3 respectively. The value of  will be

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 8

Let u be initial velocity and a be uniform acceleration.


Average velocities in the intervals from 0 to t1, t1 to t2 and t2 to t3 are


Subtract (i) from (ii), we get

Subtract (ii) from (iii), we get

Divide (iv) by (v), we get

Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 9

Position-time graph for motion with zero acceleration is

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 9

For zero acceleration, the position-time graph is a straight line.

Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 10

The velocity-time graph of a particle in one-dimensional motion is shown in Fig.

Which of the following formula are correct for describing the motion of the particle over the time-interval t1 to t2.

Detailed Solution for Test: Instantaneous Velocity & Speed Acceleration (April 22) - Question 10

in the given interval the slop of v-t graph (i.e acceleration) is neither constant nor uniform. Therefore relations (a), (b) and (c) are incorrect but (d) is correct.

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