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


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10 Questions MCQ Test - Test: Force Method Of Analysis: General Procedure

Test: Force Method Of Analysis: General Procedure for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) 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.
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Test: Force Method Of Analysis: General Procedure - Question 1

  

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

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

  

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 2

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

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Test: Force Method Of Analysis: General Procedure - Question 3

  

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 3

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 4

  

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 4

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 5

  

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 5

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

Test: Force Method Of Analysis: General Procedure - Question 6

  

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 6

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 7

  

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 7

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 8

  

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 8

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 9

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

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 9

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

Test: Force Method Of Analysis: General Procedure - Question 10

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

. 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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