1. Which technology is increasingly used for real-time motion analysis in biomechanics?
(A) Ultrasound imaging
(B) Wearable sensors
(C) MRI scanning only
(D) X-ray imaging
2. 3D motion capture systems are primarily used to:
(A) Record joint kinematics in real time
(B) Increase muscle strength
(C) Diagnose only fractures
(D) Enhance cardiovascular fitness
3. Advances in biomechanics have led to the use of:
(A) Artificial intelligence for movement analysis
(B) Blood testing for muscle strength
(C) Diet-only interventions
(D) None of the above
4. Which imaging method is most useful in visualizing soft tissue biomechanics?
(A) MRI
(B) X-ray
(C) CT scan
(D) PET scan
5. Force plates are now integrated with:
(A) Virtual reality environments
(B) Nutrition studies
(C) ECG recordings only
(D) Ultrasound only
6. The use of EMG-driven musculoskeletal models helps in:
(A) Estimating muscle forces
(B) Measuring bone density
(C) Assessing only lung volume
(D) Evaluating nutrition
7. Recent wearable devices can provide data on:
(A) Joint angles and muscle activity
(B) Digestive system health
(C) Blood group type
(D) Hair growth
8. Biomechanics research increasingly uses:
(A) Machine learning algorithms
(B) Herbal supplements
(C) Basic hand measurements only
(D) None of the above
9. Computational fluid dynamics in biomechanics is applied to:
(A) Blood flow analysis
(B) Bone density testing
(C) Muscle length measurement
(D) Nerve conduction only
10. Finite element modeling is used for:
(A) Simulating tissue stress and strain
(B) Measuring heart rate
(C) Recording ECG
(D) Recording sleep cycles
11. In sports biomechanics, inertial measurement units (IMUs) are valuable for:
(A) Tracking acceleration and rotation
(B) Measuring oxygen intake
(C) Monitoring sleep only
(D) Measuring glucose levels
12. Biomechanics in prosthetics has advanced through:
(A) Myoelectric control systems
(B) Simple wooden limbs
(C) Fixed rigid braces only
(D) None of the above
13. Which field integrates biomechanics with robotics for rehabilitation?
(A) Exoskeleton technology
(B) Yoga
(C) Dietetics
(D) Chemistry
14. Smart insoles in biomechanics are used to measure:
(A) Plantar pressure distribution
(B) Heartbeat only
(C) Lung volume
(D) Muscle size
15. Which technology helps provide augmented feedback in rehabilitation biomechanics?
(A) Virtual reality
(B) Ultrasound
(C) CT scan
(D) PET scan
16. Which type of AI is commonly applied in biomechanical gait analysis?
(A) Deep learning
(B) Herbal science
(C) Chemistry
(D) Astrology
17. Recent advances allow real-time muscle force estimation using:
(A) EMG and motion data integration
(B) ECG alone
(C) Blood samples
(D) Hair analysis
18. Robotics-assisted rehabilitation is used especially in:
(A) Stroke patients
(B) Nutrition programs
(C) Dental care
(D) Ear problems
19. 3D printing in biomechanics has enabled:
(A) Customized prosthetics and implants
(B) Food supplements
(C) Vitamin analysis
(D) Only X-rays
20. Advanced motion analysis now combines:
(A) Video capture with AI-based tracking
(B) Only manual observation
(C) Nutrition counseling
(D) Psychological testing
21. Tissue engineering in biomechanics aims to:
(A) Regenerate bone and cartilage
(B) Increase lung capacity
(C) Decrease blood sugar
(D) None of the above
22. Dynamic MRI allows:
(A) Motion tracking of joints in real time
(B) Only bone density measurement
(C) Only ligament tear detection
(D) Sleep monitoring
23. Recent gait labs integrate:
(A) Motion capture, EMG, and force plate data
(B) ECG with lung testing
(C) Nutrition data
(D) CT with blood analysis
24. Cloud computing in biomechanics helps with:
(A) Large-scale data analysis and storage
(B) Digestive studies
(C) Hair analysis
(D) Vitamin D estimation
25. Biomechanics and gaming technology integrate through:
(A) Virtual reality rehabilitation games
(B) Only handheld weights
(C) Basic walking tests
(D) Traditional yoga
26. Nanotechnology in biomechanics is being researched for:
(A) Drug delivery and tissue repair
(B) Joint angle measurement only
(C) Sleep monitoring
(D) None of the above
27. Motion capture markers are being replaced by:
(A) Markerless motion capture systems
(B) Manual drawing
(C) Paper recording
(D) None of the above
28. Advances in shoe biomechanics use:
(A) Pressure sensors for gait analysis
(B) Lung capacity measurement
(C) ECG monitoring
(D) Blood sugar sensors only
29. Smart rehabilitation devices now often include:
(A) Biofeedback systems
(B) X-rays only
(C) CT only
(D) ECG only
30. Which system allows simultaneous recording of muscle activity and movement?
(A) Integrated EMG-motion capture systems
(B) CT scan
(C) Blood test
(D) Sleep tracker
31. Cloud-based biomechanics platforms allow:
(A) Remote gait assessment and rehab monitoring
(B) Only manual paper records
(C) Only surgery
(D) None of the above
32. Advances in biomechanics assist athletes by:
(A) Reducing injury risk through load monitoring
(B) Measuring only heart rate
(C) Giving vitamin supplements
(D) Monitoring sleep
33. Augmented reality in biomechanics can help:
(A) Patients visualize and correct movement errors
(B) Blood sample testing
(C) Digestion
(D) None of the above
34. In occupational biomechanics, wearable sensors monitor:
(A) Lifting technique and posture
(B) Vitamin levels
(C) Lung capacity
(D) Hair strength
35. Which new imaging method allows better cartilage assessment?
(A) T2 mapping MRI
(B) Standard X-ray
(C) CT only
(D) Ultrasound only
36. A major advance in prosthetic biomechanics is:
(A) Neural-controlled bionic limbs
(B) Wooden prosthetics only
(C) Fixed braces
(D) None of the above
37. AI-based injury risk models in biomechanics predict:
(A) Likelihood of ACL tears or other injuries
(B) Hair fall
(C) Sleep duration
(D) Vitamin deficiency
38. Motion analysis apps in smartphones now allow:
(A) Basic gait and posture assessment
(B) Blood pressure measurement
(C) Nutrition counseling
(D) Sleep analysis
39. Rehabilitation robotics now use:
(A) Adaptive algorithms for patient progress
(B) Wooden crutches only
(C) Diet monitoring
(D) None of the above
40. Muscle ultrasound in biomechanics can measure:
(A) Muscle thickness and contraction
(B) Blood sugar
(C) Lung volume
(D) Skin elasticity
41. AI-powered force plate systems provide:
(A) Automated balance and jump analysis
(B) Nutrition advice
(C) X-ray reports
(D) None of the above
42. Personalized rehabilitation programs are enhanced by:
(A) Predictive analytics using biomechanical data
(B) Generic paper notes
(C) Manual observation only
(D) Herbal medicine
43. Recent advances in wearable exosuits aim to:
(A) Assist walking and lifting
(B) Improve eyesight
(C) Increase lung volume
(D) Enhance digestion
44. Machine learning in sports biomechanics helps:
(A) Detect faulty movement patterns in athletes
(B) Measure digestion
(C) Monitor vitamins
(D) None of the above
45. Which innovation has improved stroke rehab biomechanics?
(A) Robot-assisted gait training
(B) Herbal supplements
(C) X-rays
(D) None of the above
46. Biomechanics in elderly care uses:
(A) Fall detection sensors
(B) CT scans only
(C) Vitamin tablets
(D) None of the above
47. Motion capture data can now be processed with:
(A) Cloud-based AI platforms
(B) Paper charts only
(C) CT machines
(D) ECG
48. Sports biomechanics has benefited from:
(A) High-speed video analysis
(B) ECG analysis
(C) Nutrition testing
(D) None of the above
49. Smart orthoses are designed to:
(A) Adjust stiffness dynamically based on activity
(B) Monitor heart rate only
(C) Increase lung volume
(D) None of the above
50. The future of biomechanics research is focused on:
(A) Integration of AI, robotics, and wearable technology
(B) Only manual observation
(C) Nutritional counseling only
(D) None of the above