Q1. Define Coplanar forces and Non-coplanar forces.

This is question 1 (3 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

Q1. Derive Hagen-Poisseuille equation for flow rate.

This is question 1 (4 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

Q2. Write comparison between muscles and ligaments.

This is question 2 (4 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

Q2. Explain the testing of mechanical heart valves.

This is question 2 (7 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

Q3. Describe Laminar and Turbulent flow.

This is question 3 (3 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

SummerBE2025

Biomechanics — Summer 2025

Q: Q1. What are various types of upper and lower limb joints in human body? Explain the movements provided by each joint.

This is question 1 (7 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

Q: Q2. State First, Second and Third Newton's laws of motion.

This is question 2 (3 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

Q: Q3. Define Lever. Explain the basic difference between different types of levers using a diagram.

This is question 3 (4 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

Q: Q3. List and explain the rheological properties of blood.

This is question 3 (7 marks) from the GTU Biomechanics BE Summer 2025 question paper. Subject code: 3160308.

Subject Code3160308

ProgramBachelor of Engineering

Total Marks70

Questions15

Exam Date27 May 2025

Exam Time10:30 AM TO 01:00 PM

Questions25

Define Coplanar forces and Non-coplanar forces.

[3 marks]

Derive Hagen-Poisseuille equation for flow rate.

[4 marks]

What are various types of upper and lower limb joints in human body? Explain the movements provided by each joint.

[7 marks]

State First, Second and Third Newton's laws of motion.

[3 marks]

Write comparison between muscles and ligaments.

[4 marks]

Explain biomechanics of heart valves with necessary derivations.

[7 marks]

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Describe Laminar and Turbulent flow.

[3 marks]

Define Lever. Explain the basic difference between different types of levers using a diagram.

[4 marks]

List and explain the rheological properties of blood.

[7 marks]

Define biocompatibility. Write requirements of a biomaterial to design implants.

[3 marks]

Elaborate Kelvin-Voight model of soft tissue.

[4 marks]

Explain in detail biomechanics of spinal column.

[7 marks]

Define following with relevant diagram: 1) Flexion, 2) Abduction and 3) Circumduction.

[3 marks]

Explain in detail Hill’s muscle model.

[4 marks]

Enlist and explain in brief different force systems.

[7 marks]

Describe Bernoulli’s principle.

[3 marks]

Describe procedure for analyzing the forces and moments acting on rigid bodies in equilibrium.

[4 marks]

Explain GAIT cycle in detail.

[7 marks]

Explain briefly moment of inertia.

[3 marks]

Write Comparison of Elasticity and Viscoelasticity of materials.

[4 marks]

Explain about biomechanics of Bone in detail.

[7 marks]

Define Kinematics and Kinetics.

[3 marks]

Explain mechanical properties of cartilage.

[4 marks]

Aperson is sitting in a chair with the right leg held in horizontal position. Consider the weight of the foreleg to be 40N and CG at 15cm from knee joint. The muscle acting to keep the foreleg in the horizontal position is connected to foreleg at 5cm distance from the knee. If additional weight is applied at the foot, which is at 40cm1 from knee, what will be the force generated by the muscle if the foreleg is still in static equilibrium? Assume upper leg to be immobile.

[7 marks]

Biomechanics — Summer 2025

Questions25

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