GATE ME 2023 | Strain Energy Method Question 2 | Strength of Materials

A cylindrical bar has a length 𝐿 = 5 𝑚 and cross section area 𝑆 = 10 𝑚² . The bar is made of a linear elastic material with a density ρ = 2700 kg/m³ and Young’s modulus E = 70 GPa. The bar is suspended as shown in the figure and is in a state of uniaxial tension due to its self-weight.

The elastic strain energy stored in the bar equals _________ J. (Rounded off to two decimal places)

Take the acceleration due to gravity as 𝑔 = 9.8 m/s².

GATE ME 2023 Strength of Materials - Strain Energy Method Question 2 English

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GATE ME 2008

MCQ (Single Correct Answer)

-0.6

The strain energy stored in the beam with flexural rigidity $$EI$$ and loaded as shown in the figure is GATE ME 2008 Strength of Materials - Strain Energy Method Question 4 English

GATE ME 2008 Strength of Materials - Strain Energy Method Question 4 English

$${{{P^2}{L^3}} \over {3EI}}$$

$${{2{P^2}{L^3}} \over {3EI}}$$

$${{4{P^2}{L^3}} \over {3EI}}$$

$${{8{P^2}{L^3}} \over {3EI}}$$

GATE ME 2007

MCQ (Single Correct Answer)

-0.6

A stepped steel shaft shown below is subjected to $$10$$ N-m torque. If the modulus of rigidity is $$80$$ GPa, the strain energy in the shaft in N-mm is GATE ME 2007 Strength of Materials - Strain Energy Method Question 3 English

GATE ME 2007 Strength of Materials - Strain Energy Method Question 3 English

$$4.12$$

$$3.46$$

$$1.73$$

$$0.86$$

Questions Asked from Marks 2

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GATE ME Subjects

Engineering Mechanics

Machine Design

Strength of Materials

Heat Transfer

Production Engineering

Industrial Engineering

Turbo Machinery

Theory of Machines

Engineering Mathematics

Fluid Mechanics

Thermodynamics

General Aptitude