The ability of the material to absorb energy before fracture is known as:

An object deformed by applying force. Energy stored in the material during deformation is known as:

Area under the stress-strain curve when load is gradually applied in tension represents the

Strain energy stored in a prismatic bar suspended from one end due to its own weight (elastic behavior) [x = specific weight of material, A = cross-sectional area, L = length of bar]

Define strain energy.

A bar of length L and cross section A is subjected to axial forces P at ends. The energy stored in the bar will be.

The relationship between modulus of resilience (R).Young's modulus of Rigidity (E) and stress induced in the body (ơ) is:

Which of the following options CORRECTLY define Proof resilience?

Strain energy stored in cantilever beam loaded as shown will be

σ₁, σ₂, σ₃ are the three mutually perpendicular principal stresses with ε₁,ε₂ , and ε₃ being the strains produced in the respective directions of the stress, the strain energy stored per unit volume in a cube is

For the state of stress of pure shear t, the strain energy stored per unit volume in the elastic, homogeneous, isotropic material having elastic constants - Young's modulus, E and Poisson's ratio v will be

What will be the strain energy stored in the metallic bar of cross sectional area of 2 cm and gauge length of 10 cm if it stretches 0.002 cm under the load of 12 kN?

The strain energy stored in a body due to suddenly applied load compared to when it is applied gradually is

Maximum energy that a given component can absorb without undergoing any permanent deformation upto elastic limit is known as:

When a structural member is strained due to external imposed loads, the energy stored is called -