Mechanical Engineering - Strength of Materials - Discussion
Discussion Forum : Strength of Materials - Section 1 (Q.No. 25)
25.
For a beam, as shown in the below figure, when the load W is applied in the centre of the beam, the maximum deflection is
Discussion:
20 comments Page 2 of 2.
Sanjay kumar patle said:
8 years ago
Figure is not correct, according to question force acting at the centre, its mean a = b = l/2.
wl^3/48EI = y.
wl^3/48EI = y.
K.rajesh said:
8 years ago
If the load acting at a distance a from one end wa/3El *(L^2-a^2/3)^3/2.
Narendra Singh said:
8 years ago
The correct answer is "B".
This is simply supported beam with a load acting at the center of the beam.
This is simply supported beam with a load acting at the center of the beam.
Sujay said:
9 years ago
It is very confusable.
Ghanshyam movaliya said:
9 years ago
How can solve?
Parul said:
9 years ago
Can I get the solution for this question?
PRASEETHA said:
9 years ago
Its similar to answer C but not exactly.
Harish said:
10 years ago
How to solve this sum?
Hemlal sahu said:
1 decade ago
This question given answer option & response answer is incorrect. Above answer is simply.
Supported beam with central point load.
WWa/12.726EIl (l2-E2) 3/2.
Supported beam with central point load.
WWa/12.726EIl (l2-E2) 3/2.
Ashotosh pandey said:
1 decade ago
Can be calculated simply by Macaulay's method.
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