1. Biomechanics in physiotherapy primarily helps in:
(A) Understanding diet plans
(B) Analyzing human movement for treatment and rehabilitation
(C) Increasing medicine absorption
(D) Improving memory
2. Which of the following is a key role of biomechanics in physiotherapy?
(A) Identifying movement abnormalities
(B) Writing prescriptions
(C) Designing vaccines
(D) Increasing genetic resistance
3. Biomechanical analysis helps physiotherapists in:
(A) Correcting posture and gait
(B) Prescribing antibiotics
(C) Improving hearing ability
(D) Developing vaccines
4. Which type of motion is most analyzed in rehabilitation exercises?
(A) Random motion
(B) Angular and linear motion
(C) Nuclear motion
(D) Planetary motion
5. Biomechanics provides physiotherapists with:
(A) Understanding of forces and motion on the body
(B) Training in pharmacology
(C) Genetic mapping skills
(D) Laboratory chemical testing
6. Application of biomechanics in physiotherapy is essential for:
(A) Designing safe exercise programs
(B) Blood analysis
(C) Immunology
(D) Dentistry
7. The study of stress and strain on bones and joints in physiotherapy is part of:
(A) Biomechanics
(B) Chemistry
(C) Psychology
(D) Genetics
8. Why is biomechanics important for injury prevention?
(A) It identifies unsafe movements and helps correct them
(B) It prescribes medications
(C) It reduces infection
(D) It increases blood count
9. In physiotherapy, biomechanical knowledge is necessary for:
(A) Choosing surgical instruments
(B) Planning rehabilitation protocols
(C) Conducting blood transfusions
(D) Studying bacteria
10. Biomechanics improves physiotherapy outcomes by:
(A) Enhancing accuracy of movement analysis
(B) Increasing food digestion
(C) Promoting chemical absorption
(D) Affecting hormone secretion
11. In gait training, biomechanics helps to:
(A) Identify faulty walking patterns
(B) Improve hand strength only
(C) Increase visual power
(D) Improve dental care
12. Biomechanics is most useful in physiotherapy when treating:
(A) Musculoskeletal disorders
(B) Viral infections
(C) Digestive diseases
(D) Eye infections
13. Which therapy technique benefits from biomechanics in physiotherapy?
(A) Exercise therapy
(B) Chemotherapy
(C) Dialysis
(D) Endoscopy
14. Biomechanics helps physiotherapists understand:
(A) How joints move under stress
(B) How drugs affect the liver
(C) How DNA replicates
(D) How cells divide
15. The design of assistive devices such as crutches or prosthetics uses:
(A) Biomechanical principles
(B) Pharmacological studies
(C) Genetic engineering
(D) Immunology
16. In physiotherapy, biomechanics supports:
(A) Ergonomic adjustments
(B) Blood pressure control
(C) Hormone regulation
(D) Vaccination
17. Why do physiotherapists need biomechanics for sports injury management?
(A) To analyze movement techniques causing injuries
(B) To diagnose infections
(C) To prescribe antibiotics
(D) To test blood sugar
18. Biomechanics assists physiotherapy in:
(A) Restoring normal range of motion
(B) Checking white blood cell count
(C) Reducing virus spread
(D) Enhancing immunity
19. The study of levers in the human body is applied in physiotherapy for:
(A) Muscle strengthening and mobility exercises
(B) Blood typing
(C) Genetic sequencing
(D) X-ray imaging
20. Biomechanics is important in physiotherapy for patients with:
(A) Joint replacements
(B) Lung infections
(C) Skin rashes
(D) Kidney stones
21. Which movement analysis helps in stroke rehabilitation?
(A) Biomechanical gait and posture analysis
(B) Immunological testing
(C) Blood culture analysis
(D) Genetic mapping
22. Biomechanics supports physiotherapists in preventing:
(A) Secondary injuries
(B) Allergic reactions
(C) Asthma
(D) Diabetes
23. Understanding torque in joints is important in physiotherapy to:
(A) Improve muscle performance safely
(B) Increase chemical absorption
(C) Prevent dehydration
(D) Increase immunity
24. Biomechanics in physiotherapy is crucial for:
(A) Rehabilitation of athletes
(B) Prescribing psychiatric medication
(C) Laboratory microbiology
(D) Genetic therapy
25. Biomechanics helps physiotherapists design:
(A) Safe lifting techniques
(B) Antibiotic drugs
(C) Chemical formulas
(D) Surgical tools
26. Which branch of science works most closely with physiotherapy in biomechanics?
(A) Physics
(B) Chemistry
(C) Biology
(D) Botany
27. In rehabilitation, biomechanics allows physiotherapists to:
(A) Quantify joint angles and forces
(B) Diagnose bacterial infections
(C) Test urine samples
(D) Measure blood pH
28. Ergonomic physiotherapy interventions are based on:
(A) Biomechanics of posture and load
(B) Genetics of muscles
(C) Hormones in the body
(D) Microbial balance
29. Biomechanics helps in physiotherapy for elderly patients by:
(A) Preventing falls through balance training
(B) Increasing lung volume
(C) Treating infections
(D) Managing fever
30. Which assessment tool in physiotherapy is biomechanical?
(A) Motion capture systems
(B) MRI scan
(C) Blood test
(D) Endoscopy
31. Physiotherapists use biomechanics to understand:
(A) Muscle force production
(B) Cell mitosis
(C) DNA replication
(D) Bacterial growth
32. Which patient group benefits most from biomechanical physiotherapy analysis?
(A) Stroke survivors
(B) Flu patients
(C) Diabetic patients
(D) Asthma patients
33. Biomechanics helps physiotherapy in the design of:
(A) Orthotics and prosthetics
(B) Antibiotics
(C) Vaccines
(D) Hormonal therapy
34. Biomechanics contributes to physiotherapy by:
(A) Explaining mechanical load effects on tissues
(B) Explaining chemical digestion
(C) Explaining viral infections
(D) Explaining nerve conduction
35. Which rehabilitation area most depends on biomechanics?
(A) Orthopedic physiotherapy
(B) Dermatology
(C) Cardiology
(D) Endocrinology
36. Biomechanics in physiotherapy helps reduce:
(A) Risk of reinjury
(B) Blood sugar levels
(C) Viral transmission
(D) Skin infections
37. Analysis of center of gravity is important in physiotherapy for:
(A) Balance and stability training
(B) Genetic sequencing
(C) Digestive health
(D) Kidney function
38. Why is biomechanics applied in sports physiotherapy?
(A) To optimize performance and prevent injuries
(B) To improve blood tests
(C) To increase immunity
(D) To regulate hormones
39. Biomechanical study of joint kinematics is essential for:
(A) Designing joint mobilization exercises
(B) Developing antibiotics
(C) Performing lab tests
(D) Genetic mapping
40. Physiotherapists use biomechanics to measure:
(A) Motion patterns and muscle activity
(B) Blood sugar
(C) Viral count
(D) Bacterial culture
41. Why is biomechanics important in post-surgical physiotherapy?
(A) It ensures safe load distribution on healing tissues
(B) It eliminates bacteria
(C) It changes blood chemistry
(D) It boosts immunity
42. Biomechanical analysis in physiotherapy can prevent:
(A) Improper rehabilitation techniques
(B) Viral mutations
(C) Skin rashes
(D) Lung infections
43. Physiotherapists apply biomechanics to:
(A) Improve motor learning
(B) Increase chemical digestion
(C) Control infections
(D) Enhance immunity
44. Which biomechanical factor is most important for joint rehabilitation?
(A) Range of motion
(B) DNA sequence
(C) Blood pressure
(D) Enzyme activity
45. Biomechanics supports physiotherapy by explaining:
(A) How muscles produce force and movement
(B) How viruses spread
(C) How blood clots
(D) How cells divide
46. Which physiotherapy practice depends heavily on biomechanics?
(A) Gait training
(B) Vaccination
(C) Blood transfusion
(D) Dialysis
47. Biomechanics is applied in physiotherapy equipment such as:
(A) Treadmills and balance boards
(B) Ventilators
(C) Endoscopes
(D) Dialysis machines
48. Physiotherapists rely on biomechanics for:
(A) Movement efficiency and injury recovery
(B) Hormone regulation
(C) Virus treatment
(D) Genetic therapy
49. Biomechanics enhances physiotherapy by focusing on:
(A) Safe movement mechanics
(B) Blood chemistry
(C) Viral antigens
(D) Enzyme reactions
50. The overall importance of biomechanics in physiotherapy is:
(A) To analyze, treat, and optimize human movement
(B) To create medicines
(C) To diagnose infections
(D) To change DNA