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Civil Engineering (CE) Exam  >  Civil Engineering (CE) Tests  >  Structural Analysis  >  Test: Force Method of Analysis: General Procedure - Civil Engineering (CE) MCQ

Test: Force Method of Analysis: General Procedure - Civil Engineering (CE) MCQ


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10 Questions MCQ Test Structural Analysis - Test: Force Method of Analysis: General Procedure

Test: Force Method of Analysis: General Procedure for Civil Engineering (CE) 2024 is part of Structural Analysis preparation. The Test: Force Method of Analysis: General Procedure questions and answers have been prepared according to the Civil Engineering (CE) exam syllabus.The Test: Force Method of Analysis: General Procedure MCQs are made for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Force Method of Analysis: General Procedure below.
Solutions of Test: Force Method of Analysis: General Procedure questions in English are available as part of our Structural Analysis for Civil Engineering (CE) & Test: Force Method of Analysis: General Procedure solutions in Hindi for Structural Analysis course. Download more important topics, notes, lectures and mock test series for Civil Engineering (CE) Exam by signing up for free. Attempt Test: Force Method of Analysis: General Procedure | 10 questions in 20 minutes | Mock test for Civil Engineering (CE) preparation | Free important questions MCQ to study Structural Analysis for Civil Engineering (CE) Exam | Download free PDF with solutions
Test: Force Method of Analysis: General Procedure - Question 1
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q.How many unknowns are there in the above figure?

Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 1

Answer: d
Explanation: 4 unknown forces are there, 3 forces and one moment.

Test: Force Method of Analysis: General Procedure - Question 2
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q.The above structure is statically indeterminate.
State whether the above sentence is true or false.

Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 2

Answer: a
Explanation: 4 unknown forces and 3 reactions are there. So, it is statically indeterminate.

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Test: Force Method of Analysis: General Procedure - Question 3
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q.  This structure is made redundant by temporarily removing how many support reactions?

Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 3

Answer: a
Explanation: As the degree of indeterminacy is one, one of the support reactions is chosen to be redundant.

Test: Force Method of Analysis: General Procedure - Question 4
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q.  Which of the following forces can’t be chosen to be redundant?
Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 4

Answer: b
Explanation: Load P can’t be chosen as this is the load causing deflection. Rest all support forces can be chosen to be redundant.

Test: Force Method of Analysis: General Procedure - Question 5
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q.  Δ/ bb refers to displacement cause by By.
What does first b in Δ/ bb stands for?
Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 5

Answer: b
Explanation: First b refers to the point where load is specified, second B refers to the point where load is applied.

Test: Force Method of Analysis: General Procedure - Question 6
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q. What is the compatibility equation for the above mentioned condition?
Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 6

Answer: a
Explanation: Both the displacement will be opposite in direction and equal in magnitude.

Test: Force Method of Analysis: General Procedure - Question 7
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q. How much load acts and in which direction at point B for the displacement to be fbb?
Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 7

Answer: b
Explanation: Displacement caused by unit load acting in the direction of By is termed as fbb.

Test: Force Method of Analysis: General Procedure - Question 8
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q. Which one of the following describes fbb?
Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 8

Answer: a
Explanation: Δ/ bb is actual displacement caused by By, and fbb is caused by unit load. So, its fbb times By Δ/ bb/By.

Test: Force Method of Analysis: General Procedure - Question 9
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q. According to maxwell’s theorem:-
Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 9

Answer: c
Explanation: The displacement of a point B on a structure due to a unit load acting at point A is equal to the displacement of point A when the unit load is acting at point B

Test: Force Method of Analysis: General Procedure - Question 10
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In above figure, joint A is fixed and joint B is pinned. C lies in between A and B and a load of P are applied there.
Δb = Displacement caused when vertical support at point B is chosen to be neglected.
By = redundant force
Q. Maxwell’s theorem doesn’t apply when external moments are placed on the beam.
State whether the above statement is true or false.
Detailed Solution for Test: Force Method of Analysis: General Procedure - Question 10

Answer: b
Explanation: It is also applicable when external moments are acting on the structure instead of forces.

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