Mechanical Engineering - Strength of Materials - Discussion
Discussion Forum : Strength of Materials - Section 5 (Q.No. 25)
25.
The ratio of shear modulus to the modulus of elasticity for a Poisson's ratio of 0.4 will be
Discussion:
9 comments Page 1 of 1.
Shekhar said:
8 years ago
G=E/2(1+V).
G=E/2(1+0.4).
G=E/2(1.4) =E/2.8.
G/E=1/2.8=10/28=5/14.
G=E/2(1+0.4).
G=E/2(1.4) =E/2.8.
G/E=1/2.8=10/28=5/14.
(1)
Harinath avula said:
4 years ago
G = E/2(1+V).
G = E/2(1+0.4).
G = E/2(1.4) =E/2.8.
G/E = 1/2.8 = 10/28 = 5/14.
G = E/2(1+0.4).
G = E/2(1.4) =E/2.8.
G/E = 1/2.8 = 10/28 = 5/14.
(1)
Pelu said:
3 years ago
G = E/2(1+V).
G = E/2(1+0.4).
G = E/2(1.4) = E/2.8.
G/E = 1/2.8 = 10/28 = 5/14.
G = E/2(1+0.4).
G = E/2(1.4) = E/2.8.
G/E = 1/2.8 = 10/28 = 5/14.
(1)
Omar Farooq said:
1 decade ago
How it was solved anyone?
Pinki said:
1 decade ago
e = 2g(1+v).
Shobhit kumar said:
9 years ago
E= 2G(1 + v).
G/E = 0.5/(1 + 0.4) = 0.5/1.4.
= 5/14.
G/E = 0.5/(1 + 0.4) = 0.5/1.4.
= 5/14.
Karthik said:
8 years ago
I can't understand this solution. Anybody explain it.
Prasad Kadam said:
6 years ago
E=2G(1+mu).
=2G(1+0.4).
E/G = 2+0.8.
E/G = 2.8.
G/E = 1/2.8.
(1/2.8) = 0.3571.
(5/14) = 0.3571.
=2G(1+0.4).
E/G = 2+0.8.
E/G = 2.8.
G/E = 1/2.8.
(1/2.8) = 0.3571.
(5/14) = 0.3571.
RAZA HAIDER said:
6 years ago
E = 2G(1+μ),
E = 2G(1+0.4),
E = 2G*1.4.
G/E = 5/14
where,
G= Shear modulus.
μ= Poisson ratio.
E = 2G(1+0.4),
E = 2G*1.4.
G/E = 5/14
where,
G= Shear modulus.
μ= Poisson ratio.
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