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Civil Engineering (CE) Exam  >  Civil Engineering (CE) Tests  >  Topicwise Question Bank for Civil Engineering  >  Test: ILD & Rolling Loads - 3 - Civil Engineering (CE) MCQ

Test: ILD & Rolling Loads - 3 - Civil Engineering (CE) MCQ


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10 Questions MCQ Test Topicwise Question Bank for Civil Engineering - Test: ILD & Rolling Loads - 3

Test: ILD & Rolling Loads - 3 for Civil Engineering (CE) 2024 is part of Topicwise Question Bank for Civil Engineering preparation. The Test: ILD & Rolling Loads - 3 questions and answers have been prepared according to the Civil Engineering (CE) exam syllabus.The Test: ILD & Rolling Loads - 3 MCQs are made for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: ILD & Rolling Loads - 3 below.
Solutions of Test: ILD & Rolling Loads - 3 questions in English are available as part of our Topicwise Question Bank for Civil Engineering for Civil Engineering (CE) & Test: ILD & Rolling Loads - 3 solutions in Hindi for Topicwise Question Bank for Civil Engineering course. Download more important topics, notes, lectures and mock test series for Civil Engineering (CE) Exam by signing up for free. Attempt Test: ILD & Rolling Loads - 3 | 10 questions in 30 minutes | Mock test for Civil Engineering (CE) preparation | Free important questions MCQ to study Topicwise Question Bank for Civil Engineering for Civil Engineering (CE) Exam | Download free PDF with solutions
Test: ILD & Rolling Loads - 3 - Question 1
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For the pin-joined plane truss shown in the below figure, which of the following diagrams represents the influence line for the bar force in the member CH?

+ sign indicates tension
- sign indicates compression

Test: ILD & Rolling Loads - 3 - Question 2
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Which one of the following is the influence line for the force in the member U1L2 of the plane pin-jointed frame shown in the figure given below?

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Test: ILD & Rolling Loads - 3 - Question 3
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Which one of the following is the influence line for reaction at A of the beam shown in the figure?

Detailed Solution for Test: ILD & Rolling Loads - 3 - Question 3

Using Castigliano’s second theorem

There is no force in member (1) - (2),

Test: ILD & Rolling Loads - 3 - Question 4
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Select the correct influence line diagram for shear force at x of the following beam
Detailed Solution for Test: ILD & Rolling Loads - 3 - Question 4

Maximum shear force is at either of the support due to a point load

Test: ILD & Rolling Loads - 3 - Question 5
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The maximum bending moment at the left quarter point of a simple beam due to crossing of UDL of length shorter than the span in the direction left to right, would occur after the load had just crossed the section by
Detailed Solution for Test: ILD & Rolling Loads - 3 - Question 5

The load should be positioned such that section divides the span and load in the same ratio.

Test: ILD & Rolling Loads - 3 - Question 6
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For the continuous beam shown in figure, the influence line diagram for support reaction at D is best represented as
Detailed Solution for Test: ILD & Rolling Loads - 3 - Question 6

The ILD for support reaction at D can be obtained by:giving unit displacement in the direction of reaction. The deflected shape of beam will represent ILD as in figure (c).

Test: ILD & Rolling Loads - 3 - Question 7
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Consider the following statements:
1. Influence Line Diagram (ILD) for SF at the fixed end of a cantilever and SFD due to unit load at the free end are same.
2. ILD for BM at the fixed end of a cantilever and BMD due to unit load at the free end are same.
Which of these statements is/are correct?
Detailed Solution for Test: ILD & Rolling Loads - 3 - Question 7

ILD for BM at fixed end will have maximum ordinate when the unit load is at free end. While the BMD due to unit load at free end will have zero ordinate at free end and maximum ordinate at fixed end.

Test: ILD & Rolling Loads - 3 - Question 8
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The influence line diagram (ILD) shown is for the member
Test: ILD & Rolling Loads - 3 - Question 9
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A uniformly distributed line load of 60 kN per metre run of length 5 meters on a girder of span 16 metres. What is the maximum positive shear force at a section 6 metres from the left end.
Detailed Solution for Test: ILD & Rolling Loads - 3 - Question 9

We must first draw the influence line diagram for the SF at the section D,

For maximum positive SF at D, the loading should be applied as shown in the figure.
Maximum positive = load x area of ILD SF at D intensity covered by the load

Test: ILD & Rolling Loads - 3 - Question 10
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The wheel loads 200 kN and 80 kN spaced 2 m apart move on the span of girder of span 16 metres. What is the maximum bending moment that will occur at a section 6 metres from the left end.
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ILD & Rolling Loads - 3 MCQs with Answers

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