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Test: Projectile Motion and Uniform Circular Motion (May 16) - NEET MCQ


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10 Questions MCQ Test - Test: Projectile Motion and Uniform Circular Motion (May 16)

Test: Projectile Motion and Uniform Circular Motion (May 16) for NEET 2024 is part of NEET preparation. The Test: Projectile Motion and Uniform Circular Motion (May 16) questions and answers have been prepared according to the NEET exam syllabus.The Test: Projectile Motion and Uniform Circular Motion (May 16) MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Projectile Motion and Uniform Circular Motion (May 16) below.
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Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 1

Which of the following is true regarding projectile motion?

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 1

Horizontal velocity of a projectile is not affected by gravity.

Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 2

 In case of a projectile motion, what is the angle between the velocity and acceleration at the highest point?

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 2

At the highest point, velocity is acting horizontally and acceleration ( = acceleration due to gravity) is acting vertically downwards. Therefore, at the highest point the angle between velocity and acceleration is 90 .

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Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 3

Two particles are projected simultaneously in the same vertical plane, from the same point, both with different speeds and at different angles with horizontal. The path followed by one, as seen by the other, is

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 3

Letbe the initial velocities of the two particles and θ1​ and θ2​ be their angles of projection with the horizontal.
The velocities of the two particles after time t are,



Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 4

The relation between the time of flight of projectile Tf, and the time to reach the maximum height tm is

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 4

Time to reach maximum height = tm
Time to reach back to ground = tm
Total time of flight, Tf = tm + tm = 2tm

Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 5

If R and H represent horizontal range and maximum height of the projectile, then the angle of projection with the horizontal is:

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 5

Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 6

What is approximately the centripetal acceleration (in units of acceleration due to gravity on earth, g = 10 m s-2) of an air-craft flying at a speed of 400 m s-1 through a circular arc of radius 0.6 km?

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 6

Here, v  = 400ms−1,

r = 0.6 km = 0.6 × 103m,

g = 10ms−2
Centripetal acceleration,

= 26.7 × 10ms−2
In the units of (g = 10ms−2), the centripetal acceleration is 26.7.

Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 7

A body executing uniform circular motion has its position vector and acceleration vector

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 7

In Circular motion, the Position vector is always outward and passes through the center. whereas the and centripetal acceleration is always toward the center. 
∴ Both is the opposite direction.

Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 8

Which of the following statements is incorrect?

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 8

The kinematic equations for uniform acceleration do not apply in case of uniform circular motion because in this case the magnitude of acceleration is constant but its direction is changing.

Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 9

A cyclist starts from the centre O of a circular park of radius 1 km, reaches the edge P of the park, then cycles along the circumference and returns to the centre along QO as shown in the figure.

If the round trip takes ten minutes, the net displacement and average speed of the cyclist (in metre and kilometre per hour) is 

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 9

Since the initial position coincides with the final position. So, the net displacement of the cyclist = zero

Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 10

A cyclist is riding with a speed of 27 km h-1. As he approaches a circular turn on the road of radius 80 m, he applies brakes and reduces his speed at the constant rate of 0.50 m s-1 every second. The net acceleration of the cyclist on the circular turn is

Detailed Solution for Test: Projectile Motion and Uniform Circular Motion (May 16) - Question 10

Given here,
Speed of the cyclist, = 27 km/h = 7.5m/s
Radius of the circular tun on the road, r = 80 m
Therefore the centripetal acceleration of the cyclist at the moment when velocity is 7.5 m/s is,

When brakes are applied, the speed is decreased at the rate of 0.5m/s every second.

Therefore the tangential acceleration is,
ar = - 0.5 m/s2
Therefore the total acceleration of the cyclist is, 

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