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Strength of Materials
Young's Modulus in Stress and Strain Formulas
Young’s Modulus is a mechanical property of linear elastic solid substances. It describes the relationship between longitudinal stress and longitudinal strain. And is denoted by E. Young's Modulus is usually measured using the Megapascal for Stress. Note that the value of Young's Modulus is always negative.
Formulas to find Young's Modulus in Stress and Strain
f
x
Modulus of Elasticity given Hoop Stress due to Temperature Fall with Strain
Go
f
x
Modulus of Elasticity of Prismatic Bar with known Elongation due to Self Weight
Go
f
x
Modulus of Elasticity of Bar given Elongation of Conical Bar due to Self Weight
Go
f
x
Modulus of Elasticity of Conical Bar with known Elongation and Cross-sectional area
Go
f
x
Modulus of Elasticity using Elongation of Circular Tapering Rod
Go
f
x
Modulus of Elasticity of Circular Tapering Rod with Uniform Cross Section Section
Go
f
x
Modulus of Elasticity given Temperature Stress for Tapering Rod Section
Go
f
x
Modulus of Elasticity using Hoop Stress due to Temperature Fall
Go
f
x
Modulus of Elasticity of Rod using Extension of Truncated Conical Rod due to Self Weight
Go
f
x
Modulus of Elasticity of Bar with known elongation of Truncated Conical Rod due to Self Weight
Go
Stress and Strain formulas that make use of Young's Modulus
f
x
Hoop Stress due to Temperature Fall
Go
f
x
Diameter of Wheel given Hoop Stress due to Temperature Fall
Go
f
x
Diameter of Tyre given Hoop Stress due to Temperature Fall
Go
f
x
Hoop Stress due to Temperature Fall given Strain
Go
f
x
Strain for Hoop Stress due to Temperature Fall
Go
f
x
Length of Circular Tapering Rod when deflection due to load
Go
f
x
Self Weight of Prismatic Bar with known Elongation
Go
f
x
Load on Prismatic Bar with known Elongation due to Self Weight
Go
f
x
Length of Prismatic Rod given Elongation due to Self Weight in Uniform Bar
Go
f
x
Self Weight of Conical section with known Elongation
Go
f
x
Elongation of Conical bar due to Self Weight
Go
f
x
Length of Bar given Elongation of Conical Bar due to Self Weight
Go
f
x
Elongation of Conical Bar due to Self Weight with known Cross-sectional area
Go
f
x
Length of Bar using Elongation of Conical Bar with Cross-sectional area
Go
f
x
Load on Conical Bar with known Elongation due to Self Weight
Go
f
x
Elongation of Circular Tapering Rod
Go
f
x
Load at End with known Extension of Circular Tapering Rod
Go
f
x
Elongation of Prismatic Rod
Go
f
x
Length of Circular Tapering rod
Go
f
x
Diameter at One End of Circular Tapering Rod
Go
f
x
Diameter at Other End of Circular Tapering Rod
Go
f
x
Length of Circular Tapered Rod with Uniform Cross Section
Go
f
x
Diameter of Circular Tapered Rod with Uniform Cross Section
Go
f
x
Thickness of Tapered Bar using Temperature Stress
Go
f
x
Change in Temperature using Temperature Stress for Tapering Rod
Go
f
x
Temperature Stress for Tapering Rod Section
Go
f
x
Coefficient of Thermal Expansion given Temperature Stress for Tapering Rod Section
Go
f
x
Elongation of Truncated Conical Rod due to Self Weight
Go
f
x
Specific weight of Truncated Conical Rod using its elongation due to Self Weight
Go
f
x
Length of Rod of Truncated Conical Section
Go
f
x
Elongation due to Self Weight in Prismatic Bar
Go
f
x
Length of Bar using Elongation due to Self Weight in Prismatic bar
Go
f
x
Elongation due to Self Weight in Prismatic Bar using Applied Load
Go
f
x
Cross Sectional Area with known Elongation of Tapering Bar due to Self Weight
Go
List of variables in Stress and Strain formulas
f
x
Hoop Stress SOM
Go
f
x
Strain
Go
f
x
Specific Weight
Go
f
x
Length
Go
f
x
Elongation
Go
f
x
Tapered Bar Length
Go
f
x
Applied Load SOM
Go
f
x
Length of Tapered Bar
Go
f
x
Area of Cross-Section
Go
f
x
Applied Load
Go
f
x
Diameter1
Go
f
x
Diameter2
Go
f
x
Diameter of Shaft
Go
f
x
Thermal Stress
Go
f
x
Section Thickness
Go
f
x
Coefficient of Linear Thermal Expansion
Go
f
x
Change in Temperature
Go
f
x
Depth of Point 2
Go
f
x
Depth of Point 1
Go
f
x
Diameter of Tyre
Go
f
x
Wheel Diameter
Go
f
x
Specific Weight of Rod
Go
FAQ
What is the Young's Modulus?
Young’s Modulus is a mechanical property of linear elastic solid substances. It describes the relationship between longitudinal stress and longitudinal strain. Young's Modulus is usually measured using the Megapascal for Stress. Note that the value of Young's Modulus is always negative.
Can the Young's Modulus be negative?
Yes, the Young's Modulus, measured in Stress can be negative.
What unit is used to measure Young's Modulus?
Young's Modulus is usually measured using the Megapascal[MPa] for Stress. Pascal[MPa], Newton per Square Meter[MPa], Newton per Square Millimeter[MPa] are the few other units in which Young's Modulus can be measured.
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