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Test: Acceleration - ACT MCQ


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10 Questions MCQ Test - Test: Acceleration

Test: Acceleration for ACT 2024 is part of ACT preparation. The Test: Acceleration questions and answers have been prepared according to the ACT exam syllabus.The Test: Acceleration MCQs are made for ACT 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Acceleration below.
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Test: Acceleration - Question 1

The expression for displacement is x = sin(5t). The expression for acceleration is ______

Detailed Solution for Test: Acceleration - Question 1

Acceleration = dv/dt = d2x/dt2. The velocity (v) can be expressed as, v = dx/dt = 5cos(5t). Hence acceleration (a) becomes, a = dv/dt = -25sin(5t).

Test: Acceleration - Question 2

The velocity of a ship varies with time as v = 5t3. What is the acceleration at t = 2?

Detailed Solution for Test: Acceleration - Question 2

Acceleration of a body can be found out by differentiating the expression for velocity. Here v = 5t3. On differentiating, a = dv/dt = 15t2. On putting t = 2, we get a = 60 units.

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Test: Acceleration - Question 3

The velocity of a truck changes form 3 m/s to 5 m/s in 5s. What is the acceleration in m/s2?

Detailed Solution for Test: Acceleration - Question 3

Acceleration is the rate of change of velocity. Here, the velocity changes form 3 m/s to 5 m/s in 5s. Hence, acceleration = (5-3)/5 = 0.4 m/s2.

Test: Acceleration - Question 4

A car is travelling in the north direction. To stop, it produces a deceleration of 60 m/s2. Which of the following is a correct representation for the deceleration?

Detailed Solution for Test: Acceleration - Question 4

Deceleration always acts in the direction opposite to the direction of motion. Magnitude of deceleration is 60 m/s2 and it acts in the direction opposite to North. Hence the answer is 60 m/s2 Southwards.

Test: Acceleration - Question 5

A ball falls from a building and covers 5m in 10s. What is the acceleration?

Detailed Solution for Test: Acceleration - Question 5

Assuming the ball falls with zero initial velocity, then according to the second equation of motion, s = ut + (1/2)at2 = (1/2)at2. When we put t = 10s, we get a = 0.1 m/s2.

Test: Acceleration - Question 6

How does the displacement v/s time graph of a uniformly accelerated motion look like?

Detailed Solution for Test: Acceleration - Question 6

Here we use the second equation of motion. s = ut + (1/2)at2. In a uniformly accelerated motion, the acceleration remains constant. Therefore, the equation for displacement becomes the equation of a parabola.

Test: Acceleration - Question 7

If the velocity varies parabolically, how does the acceleration vary?

Detailed Solution for Test: Acceleration - Question 7

Velocity varies parabolically implies that velocity is of the form at + bt2. On differentiating the velocity, we get the equation for acceleration. Therefore, a = dv/dt = a+2bt, which is a linear equation. Hence the acceleration varies linearly.

Test: Acceleration - Question 8

The gradient of velocity v/s time graph is equal to ________

Detailed Solution for Test: Acceleration - Question 8

The gradient or slope of any graph tells us the value of its differential at that point. Since acceleration is the differential of velocity with respect to time, the gradient is equal to the acceleration.

Test: Acceleration - Question 9

A uniformly accelerated body has ____

Detailed Solution for Test: Acceleration - Question 9

Since the body is accelerated, the speed and velocity will vary. Momentum depends on velocity; hence the momentum will also vary. The force remains constant as F = ma.

Test: Acceleration - Question 10

What is negative acceleration known as?

Detailed Solution for Test: Acceleration - Question 10

Negative acceleration is known is deceleration. Negative acceleration acts in the direction opposite to the direction of motion. It is also known as retardation.

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