NEET Physics Rolling Motion Online Test Set A

Refer to NEET Physics Rolling Motion Online Test Set A below. Students of NEET Physics can do the below online test and refer to the full list of free NEET Physics Mock Online Test provided below. These online Mock tests for Physics in NEET have been designed based on the pattern of questions expected to come in the upcoming NEET examinations and the latest syllabus issued by NEET, NCERT and KVS and to help students strengthen their understanding of key topics. We have also provided MCQ Questions for NEET Physics with answers for all topics.

Online Mock Test for NEET Physics Rotational Motion

In the online practice Mock test for Physics Rotational Motion you can see the list of questions below with options out of which you have to select one correct answer and after completing the test you can check your answers and score. This mock test will help NEET students to check understanding of all topics in Rotational Motion. This includes multiple choice questions from NEET Physics book to test your knowledge and boost confidence.

Rotational Motion Physics NEET Mock Test

1. Two identical uniform solid spherical ball A and B of mass m each are placed on a the fixed wedge as shown in figure. Ball B is kept at rest and it is released just before two ball collides. Ball A rolls down without slipping on inclined plane and collide elastically with ball B. The kinetic energy of ball A just after the collision with B is :

2.

3.

4.

5. A toy car rolls down the inclined plane as shown in the fig. It loops at the bottom. What is the relation between H and h?

6. A tangential force of 20 N is applied on a cylinder of mass 4 kg and moment of inertia 0.02 kg m2 about its own axis. If the cylinder rolls without slipping, then linear acceleration of its centre of mass will be

7.

8.

9. A solid cylinder of mass m & radius R rolls down inclined plane without slipping. The speed of its C.M. when it reaches the bottom is

10. A solid sphere, disc and solid cylinder all of the same mass and made of the same material are allowed to roll down (from rest) on an inclined plane, then

11. A hollow smooth uniform sphere A of mass m rolls without sliding on a smooth horizontal surface. It collides head on elastically with another stationary smooth solid sphere B of the same mass m and same radius. The ratio of kinetic energy of B to that of A just after the collision is

12. A solid sphere of mass 2 kg rolls on a smooth horizontal surface at 10 m/s. It then rolls up a smooth inclined plane of inclination 30° with the horizontal. The height attained by the sphere before it stops is

13. A circular disc of radius R rolls without slipping along the horizontal surface with constant velocity v0. We consider a point A on the surface of the disc, then the acceleration of the point A is

14.

15. A ball rolls without slipping. The radius of gyration of the ball about an axis passing through its centre of mass is K. If radius of the ball be R, then the fraction of total energy associated with its rotational energy will be

16.

17. The acceleration of a disc (mass ‘m’ and radius ‘R’) rolling down an incline of angle ‘q’ without slipping is

18.

19. A solid cylinder of mass 2 kg and radius 0.1 m rolls down an inclined plane of height 3m without slipping. Its rotational kinetic energy when it reaches the foot of the plane would be

20. A body rolls down an inclined plane. If its kinetic energy of rotation is 40% of its kinetic energy of translation motion, then the body is

21. A uniform solid cylindrical roller of mass ‘m’ is being pulled on a horizontal surface with force F parallel to the surface and applied at its centre. If the acceleration of the cylinder is ‘a’ and it is rolling without slipping then the value of ‘F’ is

NEET Physics Mock online test NEET Rotational Motion

The above link for NEET Physics Rolling Motion Online Test Set A will help you to check your understanding of all important concepts which have been prepared based on latest NEET NEET syllabus. The free online mock tests for Rotational Motion NEET NEET should be used by students to check their understanding. We bring here the biggest collection of Rotational Motion NEET Physics MCQ Test to help you prepare properly and get highest rank in exams. Students can attempt the mock tests for NEET Physics as many number of times as they want and also download a passing certificate after they have cleared the online test. These mock online tests for NEET Physics Rotational Motion have been developed by our teachers after thorough review of the latest book and based on pattern of questions in upcoming exams.

Improve your preparation with NEET Physics Rolling Motion Online Test Set A

The Rotational Motion mock online tests for NEET NEET Physics has been designed by our teachers to improve your understanding of this chapter. These online mock tests are structured so that it feels like real exam condition for students so that they can build their confidence and accuracy of answers. By daily practicing these MCQ based questions for NEET Physics with answers students will be able to identify key topics to focus on and improve performance. The mock tests have been updated as per the latest NCERT book for NEET Physics to help in your exam preparation.

Why choose to do NEET Physics Rolling Motion Online Test Set A?

Daily practicing the Rotational Motion mock tests for NEET Physics has several benefits as they help to familiarize students with important concepts and effective time management skills. Each mock test for chapter Rotational Motion given above includes a variety of questions that  have been selected from Question Papers for NEET Physics and cover all important topics so that you have full preparation. After completing the NEET Physics Rolling Motion Online Test Set A, NEET students can review the answers to identify mistakes and improve further. Access these free NEET online mock tests anytime and take a step closer to achieving excellence in your Physics exams.

How to do Mock Test for NEET Physics Rotational Motion?

Follow these simple steps to attempt the test:
a. The NEET Physics Rolling Motion Online Test Set A has 15-20 questions for NEET students as per NEET NEET Physics Sample Papers pattern.
b. Each Rotational Motion question has four options, students of NEET must read the question carefully and choose the correct answer.
c. Answer all questions given above for NEET Physics Rolling Motion Online Test Set A.
d. Once you have answered all the Rotational Motion NEET MCQ based questions, click on the Submit button.
e. Your score of Online test for NEET Physics Rolling Motion Online Test Set A will be shown instantly above.
f. To check your mistakes in MCQ based test for Rotational Motion in Physics for NEET, scroll up and see the correct answers.
g. You can attempt the NEET Physics Rolling Motion Online Test Set A as many times to improve your score in NEET NEET Physics exams.

Where can I attempt latest NEET Online Mock Test for NEET Physics Rotational Motion for 2025

You can do the NEET 2025 Mock Online Test for NEET Physics Rotational Motion for latest session from StudiesToday.com

Is the NEET Physics Rotational Motion Mock Online Test based on latest books

Yes, the Mock Online Test for NEET Physics Rotational Motion have been made available here for latest 2025 academic session

How can I improve my scores by using the Mock Online Test in NEET Physics for Rotational Motion

Doing studies and then attempting the Mock Online Test given on studiestoday for NEET subject Physics and chapter Rotational Motion can help you to score better marks in exams

Are there any websites that offer free Mock Online Test for NEET Physics for Rotational Motion

Yes, studiestoday.com provides all latest NEET NEET Physics Rotational Motion Mock Online Test based on latest suggested books for current academic session

Can I check my marks and correct answers after completing mock test for Rotational Motion NEET Physics?

You can check score and correct answers after clicking completing the mock test and clicking submit button for NEET NEET Physics Rotational Motion