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The dimensions for the flexural rigidity of a beam
element in mass (M), length (L) and time (T) is given by
a)
MT
-2
b)
ML
3
T
-2
c)
ML
-1
T
-2
d)
M
-1
T
2
Correct answer is option 'B'. Can you explain this answer?
Most Upvoted Answer
The dimensions for the flexural rigidity of a beam... more element in ...
Flexural Rigidity of a Beam: Understanding the Dimensions
Introduction:
Flexural rigidity is a measure of a beam's ability to resist bending under load. It is a fundamental property of any structure and is an important consideration in the design of beams. The dimensions of flexural rigidity are given by some combination of the mass (M), length (L), and time (T).
Dimensions of Flexural Rigidity:
The dimensions of flexural rigidity can be derived using the following equation:
EI = M L^2 T^-2
where E is the modulus of elasticity and I is the moment of inertia.
To determine the dimensions of flexural rigidity, we can rearrange the equation as follows:
E = M L^-1 T^-2
I = M L^3 T^-2
Option A: MT^-2
This option is incorrect because it only includes the dimensions of mass and time. It does not include the length dimension, which is necessary for determining the bending stiffness of a beam.
Option B: ML^3T^-2
This option is correct because it includes all three dimensions of mass, length, and time. The dimension of length is cubed, reflecting the fact that the bending stiffness of a beam is proportional to the cube of its length.
Option C: ML^-1T^-2
This option is incorrect because it includes the dimensions of mass and time, but not length. As mentioned earlier, length is a critical dimension in determining the flexural rigidity of a beam.
Option D: M^-1T^2
This option is incorrect because it only includes the dimensions of mass and time. It does not include the length dimension, which is necessary for determining the bending stiffness of a beam. Additionally, the dimension of time is squared, which is not consistent with the equation for flexural rigidity.
Conclusion:
In conclusion, the dimensions of flexural rigidity are given by ML^3T^-2. It is important to understand these dimensions when designing beams or analyzing their behavior under load.
Introduction:
Flexural rigidity is a measure of a beam's ability to resist bending under load. It is a fundamental property of any structure and is an important consideration in the design of beams. The dimensions of flexural rigidity are given by some combination of the mass (M), length (L), and time (T).
Dimensions of Flexural Rigidity:
The dimensions of flexural rigidity can be derived using the following equation:
EI = M L^2 T^-2
where E is the modulus of elasticity and I is the moment of inertia.
To determine the dimensions of flexural rigidity, we can rearrange the equation as follows:
E = M L^-1 T^-2
I = M L^3 T^-2
Option A: MT^-2
This option is incorrect because it only includes the dimensions of mass and time. It does not include the length dimension, which is necessary for determining the bending stiffness of a beam.
Option B: ML^3T^-2
This option is correct because it includes all three dimensions of mass, length, and time. The dimension of length is cubed, reflecting the fact that the bending stiffness of a beam is proportional to the cube of its length.
Option C: ML^-1T^-2
This option is incorrect because it includes the dimensions of mass and time, but not length. As mentioned earlier, length is a critical dimension in determining the flexural rigidity of a beam.
Option D: M^-1T^2
This option is incorrect because it only includes the dimensions of mass and time. It does not include the length dimension, which is necessary for determining the bending stiffness of a beam. Additionally, the dimension of time is squared, which is not consistent with the equation for flexural rigidity.
Conclusion:
In conclusion, the dimensions of flexural rigidity are given by ML^3T^-2. It is important to understand these dimensions when designing beams or analyzing their behavior under load.
Community Answer
The dimensions for the flexural rigidity of a beam... more element in ...
I think correct answer is B as E has unit kn/m^2 and I has unit m^4 and if we multiply both we get resultant unit as Kn-m^2 which in dimensional form gives ML^3T^-2
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