A. resilience
B. proof resilience
C. modulus of resilience
D. toughness
E. impact energy
Related Mcqs:
- Resilience of a material is considered when it is subjected to_________________?
A. frequent heat treatment
B. fatigue
C. creep
D. shock loading
E. resonant condition - A material capable of absorbing large amount of energy before fracture is known as________________?
A. ductility
B. toughness
C. resilience
D. shock proof
E. plasticity - The maximum strain energy that can be stored in a body is known as________________?
A. impact energy
B. resilience
C. proof resilience
D. modulus of resilience
E. toughness - The energy absorbed in a body, when it is strained within the elastic limits, is known as________________?
A. strain energy
B. resilience
C. proof resilience
D. modulus of resilience
E. toughness - Deformation per unit length in the direction of force is known as_________________?
A. strain
B. lateral strain
C. linear strain
D. linear stress
E. unit strain - The property of a material by virtue of which it can be beaten or rolled into plates is called _________________?
A. malleability
B. ductility
C. plasticity
D. elasticity
E. reliability - The stress at which extension of the material takes place more quickly as compared to the increase in load is called______________?
A. elastic point of the material
B. plastic point of the material
C. breaking point of the material
D. yielding point of the material
E. ultimate point of the material - The stress developed in a material at breaking point in extension is called_________________?
A. breaking stress
B. fracture stress
C. yield point stress
D. ultimate tensile stress
E. proof stress - If a material expands freely due to heating it will develop ____________________?
A. thermal stresses
B. tensile stress
C. bending
D. compressive stress
E. no stress - Tensile strength of a material is obtained by dividing the maximum load during the test by the_________________?
A. area at the time of fracture
B. original cross-sectional area
C. average of A. and B.
D. minimum area after fracture
E. none of the above.
