Q1. Explain briefly moment of inertia.

This is question 1 (3 marks) from the GTU Biomechanics BE Summer 2023 question paper. Subject code: 3160308.

Q2. Describe Newton’s Laws of Motion.

This is question 2 (3 marks) from the GTU Biomechanics BE Summer 2023 question paper. Subject code: 3160308.

Q2. Explain mechanical properties of hard tissue.

This is question 2 (7 marks) from the GTU Biomechanics BE Summer 2023 question paper. Subject code: 3160308.

Q2. Draw and explain the types of joints in human body.

This is question 2 (7 marks) from the GTU Biomechanics BE Summer 2023 question paper. Subject code: 3160308.

Q3. Define viscosity and viscometer.

This is question 3 (4 marks) from the GTU Biomechanics BE Summer 2023 question paper. Subject code: 3160308.

SummerBE2023

Biomechanics — Summer 2023

Q: Q1. Describe the principle of capillary viscometer. Explain the Poiseuille’s equation for calculating viscosity.

This is question 1 (4 marks) from the GTU Biomechanics BE Summer 2023 question paper. Subject code: 3160308.

Q: Q1. Write in detail the biomechanics of spinal column.

This is question 1 (7 marks) from the GTU Biomechanics BE Summer 2023 question paper. Subject code: 3160308.

Q: Q2. Define: 1) Coplanar Forces 2) Noncoplanar Forces 3)Concurrent Forces 4) Nonconcurrent Forces

This is question 2 (4 marks) from the GTU Biomechanics BE Summer 2023 question paper. Subject code: 3160308.

Q: Q3. Explain biocompatibility of orthopedic implants.

This is question 3 (3 marks) from the GTU Biomechanics BE Summer 2023 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 2023 question paper. Subject code: 3160308.

Subject Code3160308

ProgramBachelor of Engineering

Total Marks70

Questions18

Exam Date11 July 2023

Exam Time10:30 AM TO 01:00 PM

Questions25

Explain briefly moment of inertia.

[3 marks]

Describe the principle of capillary viscometer. Explain the Poiseuille’s equation for calculating viscosity.

[4 marks]

Write in detail the biomechanics of spinal column.

[7 marks]

Describe Newton’s Laws of Motion.

[3 marks]

Define: 1) Coplanar Forces 2) Noncoplanar Forces 3)Concurrent Forces 4) Nonconcurrent Forces

[4 marks]

Explain mechanical properties of hard tissue.

[7 marks]

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Explain biocompatibility of orthopedic implants.

[3 marks]

Define viscosity and viscometer.

[4 marks]

List and explain the rheological properties of blood.

[7 marks]

Enlist the characteristics of mechanical heart valves.

[3 marks]

Explain solid and fluid frictional force.

[4 marks]

Describe biomechanics of heart valves with necessary derivations.

[7 marks]

How a prosthetic valve is tested?

[3 marks]

Elaborate Kelvin-Voight model of soft tissue.

[4 marks]

Explain the design aspects of orthopedic implant. OR1

[7 marks]

Explain different types of heart valves and their functions in our body.

[3 marks]

Describe structural difference between ligaments and tendons with figure.

[4 marks]

Explain in detail Hill’s muscle model.

[7 marks]

Describe Bernoulli’s principle.

[3 marks]

Explain manufacturing process of implants.

[4 marks]

Describe the structure and composition of bone.

[7 marks]

Explain Hagen-poiseuille equation.

[3 marks]

Describe briefly mechanics of blood vessels.

[4 marks]

Write in detail the applications of gait and locomotion analysis.

[7 marks]

Biomechanics — Summer 2023

Questions25

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