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Civil Engineering (CE) Exam  >  Civil Engineering (CE) Test  >  Structural Analysis  >  Test: Kinematic Indeterminacy- Beams & Frames - Civil Engineering (CE) MCQ

Kinematic Indeterminacy- Beams & Frames - Free MCQ Practice Test with solutions,


MCQ Practice Test & Solutions: Test: Kinematic Indeterminacy- Beams & Frames (10 Questions)

You can prepare effectively for Civil Engineering (CE) Structural Analysis with this dedicated MCQ Practice Test (available with solutions) on the important topic of "Test: Kinematic Indeterminacy- Beams & Frames". These 10 questions have been designed by the experts with the latest curriculum of Civil Engineering (CE) 2026, to help you master the concept.

Test Highlights:

  • - Format: Multiple Choice Questions (MCQ)
  • - Duration: 30 minutes
  • - Number of Questions: 10

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Test: Kinematic Indeterminacy- Beams & Frames - Question 1
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The degree of freedom for the vertical guided roller is ________

Detailed Solution: Question 1

Vertical guided roller resists horizontal/axial force and bending moment. However, it cannot resist vertical forces as it slides down along the plane. Hence it has 1 degree of freedom.

Test: Kinematic Indeterminacy- Beams & Frames - Question 2
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What is kinematic indeterminacy for the given figure without considering axial deformation?

Detailed Solution: Question 2

The given beam is supported by roller support at both of its ends. Roller support, if not considering axial deformation has one degree of freedom i.e. Rotation. Therefore, the degree of freedom of the beam is 2.

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Test: Kinematic Indeterminacy- Beams & Frames - Question 3
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What is kinematic indeterminacy for the given figure?

Detailed Solution: Question 3

The given beam is supported by fixed supports at both of its ends and intermediary roller support. Fixed does not provide any degree of freedom. Whereas, roller support provides both rotation and horizontal sway. But horizontal sway is already restricted by the ends fixed support. Thus, the only degree of freedom is the rotation about roller support.

Test: Kinematic Indeterminacy- Beams & Frames - Question 4
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What is kinematic indeterminacy for the given figure without considering axial deformation?

Detailed Solution: Question 4

Explanation: The given set of frame consists of fixed end supports with two intermediate rigid joints. Each rigid joint allows horizontal sway, vertical sway, and rotation. But since the axial deformation is to be neglected. Therefore, vertical sway of the joints and either horizontal sway of a joint is neglected. Hence, degree of freedom is three.

Test: Kinematic Indeterminacy- Beams & Frames - Question 5
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The degree of freedom for a rigid jointed plane frame without axial deformation is given by 3j – m – r.

Detailed Solution: Question 5

The degree of freedom for a rigid jointed plane frame without axial deformation is given by 3j – r, where j is the number of joint and r is the number of reactions.

Test: Kinematic Indeterminacy- Beams & Frames - Question 6
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What is kinematic indeterminacy for the given figure considering axial deformation?

Detailed Solution: Question 6

The given beam is supported by roller support at both of its ends. Roller support, if considering axial deformation has two degrees of freedom i.e. Rotation and Horizontal sway. Therefore, the degree of freedom of the beam is 4.

Test: Kinematic Indeterminacy- Beams & Frames - Question 7
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What is kinematic indeterminacy for the given figure considering axial deformation?

Detailed Solution: Question 7

The given beam is supported by fixed support at both of it ends. Fixed support, if not considering axial deformation does not any degree of freedom. Therefore, the degree of freedom of the beam is 0.

Test: Kinematic Indeterminacy- Beams & Frames - Question 8
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The degree of freedom of a joint for the rigid jointed joint plane frame is _____

Detailed Solution: Question 8

Number of degree of freedom of a joint for the rigid jointed plane frame is 3 i.e. Horizontal sway, Vertical sway, and Rotation.

Test: Kinematic Indeterminacy- Beams & Frames - Question 9
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What is kinematic indeterminacy for the given figure without considering axial deformation?

Detailed Solution: Question 9

The given set of frame consists of fixed end supports with two intermediate rigid joints. Each rigid joint allows horizontal sway, vertical sway, and rotation. But since the axial deformation is to be neglected. Therefore, vertical sway of the joints and either horizontal sway of a joint is neglected. Hence, degree of freedom is three.

Test: Kinematic Indeterminacy- Beams & Frames - Question 10
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The degree of freedom of the given typical joint is ______

Detailed Solution: Question 10

Horizontal hinged joint provides four degrees of freedom. Four freedom at the horizontal hinged joint are horizontal sways of both connected members, vertical deflection of the joint and rotation of the joint.

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About this Civil Engineering (CE) Practice Test

This test contains 10 MCQs on Kinematic Indeterminacy- Beams & Frames with detailed solutions for each question. It is part of the Structural Analysis course on EduRev, designed to align with the current Civil Engineering (CE) syllabus. Each solution explains not just the correct answer but also gives you an understanding of the topic — not just to attempt the question but also help you prepare for the exam with practice.

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