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Contents of the Stress and Strain PDF

List of 61 Stress and Strain Formulas

Area at Section 1 of Bars of Uniform Strength

Area at Section 2 of Bars of Uniform Strength

Change in Diameter given Volumetric Strain of Sphere

Change in Temperature using Temperature Stress for Tapering Rod

Coefficient of Thermal Expansion given Temperature Stress for Tapering Rod Section

Cross Sectional Area with known Elongation of Tapering Bar due to Self Weight

Diameter at One End of Circular Tapering Rod

Diameter at Other End of Circular Tapering Rod

Diameter of Circular Tapered Rod with Uniform Cross Section

Diameter of Sphere using Volumetric Strain of sphere

Diameter of Tyre given Hoop Stress due to Temperature Fall

Diameter of Tyre given Temperature Strain

Diameter of Wheel given Hoop Stress due to Temperature Fall

Diameter of Wheel given Temperature Strain

Elongation due to Self Weight in Prismatic Bar

Elongation due to Self Weight in Prismatic Bar using Applied Load

Elongation of Circular Tapering Rod

Elongation of Conical bar due to Self Weight

Elongation of Conical Bar due to Self Weight with known Cross-sectional area

Elongation of Prismatic Rod

Elongation of Truncated Conical Rod due to Self Weight

Hoop Stress due to Temperature Fall

Hoop Stress due to Temperature Fall given Strain

Length of Bar given Elongation of Conical Bar due to Self Weight

Length of Bar using Elongation due to Self Weight in Prismatic bar

Length of Bar using Elongation of Conical Bar with Cross-sectional area

Length of Bar using its Uniform Strength

Length of Circular Tapered Rod with Uniform Cross Section

Length of Circular Tapering rod

Length of Circular Tapering Rod when deflection due to load

Length of Prismatic Rod given Elongation due to Self Weight in Uniform Bar

Length of Rod of Truncated Conical Section

Load at End with known Extension of Circular Tapering Rod

Load on Conical Bar with known Elongation due to Self Weight

Load on Prismatic Bar with known Elongation due to Self Weight

Modulus of Elasticity given Hoop Stress due to Temperature Fall with Strain

Modulus of Elasticity given Temperature Stress for Tapering Rod Section

Modulus of Elasticity of Bar given Elongation of Conical Bar due to Self Weight

Modulus of Elasticity of Bar with known elongation of Truncated Conical Rod due to Self Weight

Modulus of Elasticity of Circular Tapering Rod with Uniform Cross Section Section

Modulus of Elasticity of Conical Bar with known Elongation and Cross-sectional area

Modulus of Elasticity of Prismatic Bar with known Elongation due to Self Weight

Modulus of Elasticity of Rod using Extension of Truncated Conical Rod due to Self Weight

Modulus of Elasticity using Elongation of Circular Tapering Rod

Modulus of Elasticity using Hoop Stress due to Temperature Fall

Self Weight of Conical section with known Elongation

Self Weight of Prismatic Bar with known Elongation

Specific weight of Truncated Conical Rod using its elongation due to Self Weight

Strain along Breadth given Volumetric Strain of Rectangular Bar

Strain along Depth given Volumetric Strain of Rectangular Bar

Strain along Length given Volumetric Strain of Rectangular Bar

Strain for Hoop Stress due to Temperature Fall

Strain given Volumetric Strain of Sphere

Temperature Strain

Temperature Stress for Tapering Rod Section

Thickness of Tapered Bar using Temperature Stress

Uniform Stress on Bar due to Self-Weight

Volumetric Strain of Rectangular Bar

Volumetric Strain of sphere

Volumetric Strain of Sphere given Lateral Strain

Weight Density of Bar using Area at Section 1 of Bars of uniform Strength

Variables used in Stress and Strain PDF

A Area of Cross-Section (Square Millimeter)
A₁ Area 1 (Square Meter)
A₂ Area 2 (Square Meter)
d Diameter of Shaft (Meter)
d₁ Diameter1 (Meter)
d₂ Diameter2 (Meter)
D₂ Depth of Point 2 (Meter)
d_tyre Diameter of Tyre (Meter)
D_wheel Wheel Diameter (Meter)
E Young's Modulus (Megapascal)
h ₁ Depth of Point 1 (Meter)
l Length of Tapered Bar (Meter)
L Length (Meter)
L_Rod Length of Rod (Meter)
L_Taperedbar Tapered Bar Length (Meter)
t Section Thickness (Meter)
W Load Applied KN (Kilonewton)
W_{Applied load} Applied Load (Kilonewton)
W_Load Applied Load SOM (Kilonewton)
α Coefficient of Linear Thermal Expansion (Per Degree Celsius)
γ Specific Weight (Kilonewton per Cubic Meter)
γ_Rod Specific Weight of Rod (Kilonewton per Cubic Meter)
δ_dia Change in Diameter (Meter)
δl Elongation (Meter)
Δt Change in Temperature (Degree Celsius)
ε Strain
ε_b Strain along Breadth
ε_d Strain along Depth
ε_l Strain along Length
ε_L Lateral Strain
ε_v Volumetric Strain
σ Thermal Stress (Megapascal)
σ_h Hoop Stress SOM (Megapascal)
σ_Uniform Uniform Stress (Megapascal)
Φ Diameter of Sphere (Meter)

Constants, Functions and Measurements used in Stress and Strain PDF

Constant: pi, 3.14159265358979323846264338327950288
Archimedes' constant
Constant: e, 2.71828182845904523536028747135266249
Napier's constant
Function: ln, ln(Number)
The natural logarithm, also known as the logarithm to the base e, is the inverse function of the natural exponential function.
Function: log10, log10(Number)
The common logarithm, also known as the base-10 logarithm or the decimal logarithm, is a mathematical function that is the inverse of the exponential function.
Function: sqrt, sqrt(Number)
A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.
Measurement: Length in Meter (m)
Length Unit Conversion
Measurement: Area in Square Meter (m²), Square Millimeter (mm²)
Area Unit Conversion
Measurement: Force in Kilonewton (kN)
Force Unit Conversion
Measurement: Temperature Difference in Degree Celsius (°C)
Temperature Difference Unit Conversion
Measurement: Temperature Coefficient of Resistance in Per Degree Celsius (°C⁻¹)
Temperature Coefficient of Resistance Unit Conversion
Measurement: Specific Weight in Kilonewton per Cubic Meter (kN/m³)
Specific Weight Unit Conversion
Measurement: Stress in Megapascal (MPa)
Stress Unit Conversion

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