Biomechanics – MCQs

1. What does biomechanics primarily study?

(A) Structure of cells

(B) Forces acting on the human body

(D) Nervous system diseases

2. The term biomechanics is a combination of which two fields?

(A) Biology and Physics

(B) Medicine and Chemistry

(D) Engineering and Sociology

3. Who is known as the father of biomechanics?

(A) Hippocrates

(B) Aristotle

(D) Archimedes

4. Which branch of mechanics deals with motion without considering forces?

(A) Dynamics

(B) Kinematics

(D) Kinetics

5. Which branch of mechanics studies forces that cause motion?

(A) Statics

(B) Kinematics

(D) Dynamics

6. Which law of motion is called the law of inertia?

(A) First law

(B) Second law

(D) Universal law of gravitation

7. Which law explains the relationship between force, mass, and acceleration?

(A) Newton’s first law

(B) Newton’s second law

(D) Pascal’s law

8. Which law is known as the action-reaction law?

(A) Newton’s first law

(B) Newton’s second law

(D) Hooke’s law

9. What is the SI unit of force?

(A) Joule

(B) Watt

(D) Pascal

10. Torque is defined as:

(A) Force × Acceleration

(B) Force × Distance from axis

(D) Pressure × Area

11. Which type of lever is most common in the human body?

(A) First-class lever

(B) Second-class lever

(D) Fourth-class lever

12. Which lever type is the biceps curl an example of?

(A) First-class

(B) Second-class

(D) None

13. The calf raise (standing on tiptoe) is an example of:

(A) First-class lever

(B) Second-class lever

(D) None of the above

14. A seesaw is an example of which lever?

(A) First-class lever

(B) Second-class lever

(D) Fourth-class lever

15. Which quantity is a vector?

(A) Speed

(B) Distance

(D) Mass

16. Which quantity is scalar?

(A) Force

(B) Acceleration

(D) Momentum

17. What does the center of gravity represent?

(A) Point of maximum pressure

(B) Point where body’s weight is equally distributed

(D) Point of maximum velocity

18. In a stable equilibrium, the center of gravity is:

(A) Low

(B) High

(D) Absent

19. In an unstable equilibrium, the center of gravity is:

(A) Low

(B) High

(D) None of the above

20. Work is defined as:

(A) Force × Time

(B) Force × Distance moved in the direction of force

(D) Energy × Time

21. The SI unit of work is:

(A) Newton

(B) Joule

(D) Pascal

22. Power is defined as:

(A) Work ÷ Time

(B) Force ÷ Mass

(D) Energy ÷ Pressure

23. The SI unit of power is:

(A) Joule

(B) Watt

(D) Pascal

24. Which type of motion is a gymnast spinning in the air?

(A) Linear motion

(B) Angular motion

(D) Rectilinear motion

25. Running in a straight line is an example of:

(A) Angular motion

(B) Rectilinear motion

(D) Curvilinear motion

26. The flight of a thrown ball represents:

(A) Linear motion

(B) Rotational motion

(D) Static motion

27. Which force resists motion between two surfaces in contact?

(A) Gravity

(B) Friction

(D) Inertia

28. Which factor increases stability?

(A) Narrow base of support

(B) High center of gravity

(D) Reduced weight

29. Which type of force produces rotation?

(A) Linear force

(B) Shear force

(D) Compression force

30. Which type of force pushes tissues together?

(A) Shear force

(B) Compression force

(D) Torque

31. Which type of force pulls tissues apart?

(A) Tension force

(B) Compression force

(D) Torque

32. Which type of force acts parallel to a surface?

(A) Compression force

(B) Shear force

(D) Gravity

33. Angular velocity is measured in:

(A) Meters per second

(B) Radians per second

(D) Joules

34. Linear velocity is measured in:

(A) Radians per second

(B) Newtons

(D) Joules

35. The resistance arm is:

(A) Distance between force and axis

(B) Distance between load and axis

(D) None of the above

36. The effort arm is:

(A) Distance between effort and axis

(B) Distance between load and axis

(D) None of the above

37. Which law explains why sprinters push against the ground?

(A) Newton’s first law

(B) Newton’s second law

(D) Archimedes’ principle

38. Which mechanical principle explains why crutches increase stability?

(A) Center of gravity lowered

(B) Base of support widened

(D) Momentum increased

39. The knee joint mainly functions as which type of lever?

(A) First-class

(B) Second-class

(D) Variable

40. The mechanical advantage of a lever is calculated as:

(A) Effort arm ÷ Resistance arm

(B) Resistance arm ÷ Effort arm

(D) Mass ÷ Velocity

41. A lever with mechanical advantage greater than 1 is designed for:

(A) Speed

(B) Range of motion

(D) Flexibility

42. A lever with mechanical advantage less than 1 is designed for:

(A) Force

(B) Stability

(D) Balance

43. Which of the following is a closed-chain exercise?

(A) Biceps curl

(B) Squat

(D) Shoulder press

44. Which of the following is an open-chain exercise?

(A) Push-up

(B) Pull-up

(D) Squat

45. The line of gravity in the human body normally passes:

(A) Anterior to the knee joint

(B) Posterior to the ankle joint

(D) Only through the spine

46. Which factor decreases stability?

(A) Wide base of support

(B) High center of gravity

(D) Large body mass

47. Momentum is defined as:

(A) Mass × Acceleration

(B) Mass × Velocity

(D) Power × Time

48. Impulse is equal to:

(A) Force × Time

(B) Mass × Velocity

(D) Torque × Distance

49. Which branch of biomechanics studies the mechanics of injury prevention?

(A) Sports biomechanics

(B) Occupational biomechanics

(D) Rehabilitation biomechanics

50. Biomechanics helps physiotherapists by:

(A) Understanding motion, forces, and designing rehabilitation programs

(B) Prescribing drugs

(D) Conducting X-rays

More MCQs on Biomechanics