# Laws of Motion-Force and Inertia (NEET (NTA)-National Eligibility cum Entrance Test (Medical) Physics): Questions 15 - 18 of 57

Get 1 year subscription: Access detailed explanations (illustrated with images and videos) to 2142 questions. Access all new questions we will add tracking exam-pattern and syllabus changes. View Sample Explanation or View Features.

Rs. 550.00 or

## Question number: 15

» Laws of Motion » Force and Inertia

MCQ▾

### Question

A cricket ball of mass 250 gm moving with a velocity of 25 m/s is hit by a bat so that it acquires a velocity of 30 m/s in the opposite direction. The force acting on the ball, if the contact time is 1/100 of a second, will be -

### Choices

Choice (4) Response

a.

632.5 N in the initial direction of ball

b.

1300 N in the final direction of ball

c.

1.345 N in the initial direction of ball

d.

130 N in the final direction of ball

## Question number: 16

» Laws of Motion » Force and Inertia

MCQ▾

### Question

A particle of mass m slides down from the vertex of semi-hemisphere, without any initial velocity. At what height from horizontal will the particle leave the sphere-

### Choices

Choice (4) Response

a.

b.

c.

d.

## Question number: 17

» Laws of Motion » Force and Inertia

MCQ▾

### Question

A cricket ball of mass 250 gm moving with a velocity of 24 m/s is hit by a bat so that it acquires a velocity of 28 m/s in the opposite direction. The force acting on the ball, if the contact time is 1/100 of a second, will be -

### Choices

Choice (4) Response

a.

1300 N in the final direction of ball

b.

13 N in the initial direction of ball

c.

1.3 N in the initial direction of ball

d.

130 N in the final direction of ball

## Question number: 18

» Laws of Motion » Force and Inertia

MCQ▾

### Question

A string of length 1 m is fixed at one end and carries a mass of 100 gm at the other end. The string makes 2/jt revolutions per second about a vertical axis through the fixed end. The angle of inclination of the string with the vertical, and the linear velocity of the mass will respectively be - (in M. K. S. system)

### Choices

Choice (4) Response

a.

50°14′, 3.16

b.

52°14′, 1.6

c.

52°14′, 3.16

d.

50°14′, 1.6

f Page