Relationship with kinetics and kinematics – MCQs

1. Kinematics in biomechanics refers to the study of:
(A) Forces causing motion
(B) Motion without regard to forces
(C) Muscle fatigue
(D) Blood circulation

2. Kinetics in biomechanics is defined as:
(A) Description of motion only
(B) Study of forces that cause or resist motion
(C) Study of body fluids
(D) Analysis of hormones

3. The relationship between kinetics and kinematics is that:
(A) Kinematics describes motion, while kinetics explains why motion occurs
(B) Both mean the same thing
(C) Kinetics studies blood, kinematics studies bones
(D) Kinematics causes muscle fatigue

4. Analyzing the angle of a knee joint during walking is an example of:
(A) Kinetics
(B) Kinematics
(C) Physiology
(D) Pathology

5. Measuring the ground reaction force during a jump is an example of:
(A) Kinetics
(B) Kinematics
(C) Genetics
(D) Nutrition

6. Which of the following is a kinematic variable?
(A) Acceleration
(B) Torque
(C) Force
(D) Momentum

7. Which of the following is a kinetic variable?
(A) Distance
(B) Velocity
(C) Force
(D) Displacement

8. The velocity of a soccer ball after being kicked is explained by:
(A) Kinematics
(B) Kinetics
(C) Physiology
(D) Anatomy

9. The force applied by the foot while kicking a soccer ball is explained by:
(A) Kinematics
(B) Kinetics
(C) Microbiology
(D) Chemistry

10. In biomechanics, displacement, velocity, and acceleration are part of:
(A) Kinematics
(B) Kinetics
(C) Ergonomics
(D) Physiology

11. In biomechanics, force, torque, and momentum are part of:
(A) Kinematics
(B) Kinetics
(C) Genetics
(D) Anatomy

12. When analyzing gait, the stride length and speed are examples of:
(A) Kinetics
(B) Kinematics
(C) Immunology
(D) Nutrition

13. When analyzing gait, the joint reaction forces are examples of:
(A) Kinetics
(B) Kinematics
(C) Microbiology
(D) Chemistry

14. Newton’s laws are more directly applied in:
(A) Kinetics
(B) Kinematics
(C) Endocrinology
(D) Hematology

15. Which field answers the question “how far, how fast, in what direction”?
(A) Kinematics
(B) Kinetics
(C) Physiology
(D) Psychology

16. Which field answers the question “why and how is the motion produced”?
(A) Kinetics
(B) Kinematics
(C) Anatomy
(D) Sociology

17. Angular velocity of a limb is studied under:
(A) Kinematics
(B) Kinetics
(C) Biochemistry
(D) Pharmacology

18. The torque generated at the elbow during lifting weights is an example of:
(A) Kinetics
(B) Kinematics
(C) Nutrition
(D) Anatomy

19. Video motion capture mainly collects data for:
(A) Kinematics
(B) Kinetics
(C) Genetics
(D) Endocrinology

20. Force plates are instruments used for:
(A) Kinetics
(B) Kinematics
(C) Physiology
(D) Chemistry

21. Which describes the relationship of kinematics to kinetics?
(A) Kinematics gives input, kinetics provides explanation of forces
(B) Kinetics ignores forces
(C) Kinematics only measures strength
(D) They are unrelated

22. The acceleration of a sprinter out of the blocks is a:
(A) Kinematic factor
(B) Kinetic factor
(C) Physiological factor
(D) Psychological factor

23. The horizontal force applied by the sprinter on the ground is a:
(A) Kinetic factor
(B) Kinematic factor
(C) Biochemical factor
(D) Genetic factor

24. Linear displacement belongs to:
(A) Kinematics
(B) Kinetics
(C) Immunology
(D) Hematology

25. Angular acceleration belongs to:
(A) Kinematics
(B) Kinetics
(C) Pharmacology
(D) Genetics

26. Joint reaction forces belong to:
(A) Kinetics
(B) Kinematics
(C) Biochemistry
(D) Microbiology

27. Momentum and impulse are key concepts in:
(A) Kinetics
(B) Kinematics
(C) Nutrition
(D) Physiology

28. Displacement and trajectory are studied in:
(A) Kinematics
(B) Kinetics
(C) Psychology
(D) Anatomy

29. Which is an example of combining kinematics and kinetics?
(A) Studying how much force is required to achieve a certain velocity
(B) Measuring only muscle mass
(C) Observing only direction of movement
(D) Calculating only energy intake

30. A discus thrower’s spin speed is measured under:
(A) Kinematics
(B) Kinetics
(C) Genetics
(D) Microbiology

31. The muscular torque used to release the discus is part of:
(A) Kinetics
(B) Kinematics
(C) Nutrition
(D) Chemistry

32. Which of the following is a direct application of kinematics in rehabilitation?
(A) Gait analysis of stride length and speed
(B) Force plate measurement
(C) Muscle EMG recording
(D) Hormone testing

33. Which of the following is a direct application of kinetics in rehabilitation?
(A) Measuring ground reaction forces during walking
(B) Observing running trajectory
(C) Calculating stride frequency
(D) Describing movement angles

34. In biomechanics, the study of joint angles without considering forces is:
(A) Kinematics
(B) Kinetics
(C) Physiology
(D) Pathology

35. In biomechanics, the study of muscle forces that create joint motion is:
(A) Kinetics
(B) Kinematics
(C) Anatomy
(D) Physiology

36. Linear velocity is a:
(A) Kinematic quantity
(B) Kinetic quantity
(C) Physiological variable
(D) Genetic variable

37. Joint torque is a:
(A) Kinetic quantity
(B) Kinematic quantity
(C) Anatomical structure
(D) Nutritional factor

38. The trajectory of a ball in air is analyzed by:
(A) Kinematics
(B) Kinetics
(C) Hematology
(D) Pathology

39. The air resistance acting on the ball in flight is explained by:
(A) Kinetics
(B) Kinematics
(C) Immunology
(D) Biochemistry

40. Which biomechanical subfield explains “cause” of motion?
(A) Kinetics
(B) Kinematics
(C) Anatomy
(D) Genetics

41. Which biomechanical subfield explains “description” of motion?
(A) Kinematics
(B) Kinetics
(C) Physiology
(D) Biochemistry

42. In gait analysis, cadence belongs to:
(A) Kinematics
(B) Kinetics
(C) Pharmacology
(D) Hematology

43. In gait analysis, plantar ground reaction force belongs to:
(A) Kinetics
(B) Kinematics
(C) Microbiology
(D) Nutrition

44. Which relationship is true?
(A) Kinematics = motion; Kinetics = cause of motion
(B) Kinetics = motion; Kinematics = cause of motion
(C) Both mean “forces”
(D) Both mean “movement description”

45. In running biomechanics, stride frequency is a:
(A) Kinematic measure
(B) Kinetic measure
(C) Physiological measure
(D) Genetic measure

46. In running biomechanics, muscle force generation is a:
(A) Kinetic measure
(B) Kinematic measure
(C) Nutritional measure
(D) Chemical measure

47. Which study would require both kinetics and kinematics?
(A) Motion of a gymnast during a flip
(B) Muscle tissue histology
(C) Heart rate monitoring
(D) Vitamin D levels

48. Which is NOT a kinematic variable?
(A) Speed
(B) Displacement
(C) Force
(D) Acceleration

49. Which is NOT a kinetic variable?
(A) Torque
(B) Velocity
(C) Impulse
(D) Force

50. The integration of kinetics and kinematics in biomechanics allows:
(A) A complete understanding of human motion and its causes
(B) Only description of motion
(C) Only cause of motion without details
(D) Exclusion of mechanical principles