Explore topic-wise MCQs in Testing Subject.

This section includes 657 Mcqs, each offering curated multiple-choice questions to sharpen your Testing Subject knowledge and support exam preparation. Choose a topic below to get started.

1.

mild steel, gold, silver, copper, aluminium, etc. shows type of fracture

A. cleavege
B. cupcone
C. star
D. irregular fibrous
Answer» C. star
Discussion
2.

cast iron, glass, concrete, bricks etc. shows                type of fracture

A. cleavege
B. cupcone
C. star
D. irregular fibrous
Answer» B. cupcone
Discussion
3.

during tensile test, type of loading should be avoided

A. shear
B. eccentric
C. repetitive
D. all of the above
Answer» E.
Discussion
4.

               states that geometrically similar samples having constant L/D ratio shows same % elongation

A. hooke\s law
B. barba\s law
C. newton\s law
D. none of the above
Answer» C. newton\s law
Discussion
5.

during tensile test, if gauge length                   percentage elongation increases due to localised elongation

A. decreases
B. increases
C. same
D. all of the above
Answer» B. increases
Discussion
6.

in tensile test, during strain hardening material after cold working shows                      in strength with decreased toughness

A. decrease
B. increase
C. no change
D. none of the above
Answer» C. no change
Discussion
7.

for brittle material its

A. yield stress and uts are very close
B. uts and breaking are very close
C. yield stress and uts and breaking are very close
D. none of the above
Answer» D. none of the above
Discussion
8.

unit of toughness is

A. pascal
B. joule
C. newton
D. watts
Answer» C. newton
Discussion
9.

                     is the minimum value of stress in plastic region

A. uts
B. proof stress
C. yield stress
D. breaking stress
Answer» E.
Discussion
10.

for ducttile material is the maximum value of stress the material can sustain

A. uts
B. proof stress
C. yield stress
D. proportional stress
Answer» B. proof stress
Discussion
11.

Breaking Stress is also called as

A. proof stress
B. yield stress
C. fracture stress
D. uts
Answer» D. uts
Discussion
12.

             is the maximum value of stress in the plastic region

A. uts
B. proof stress
C. yield stress
D. proportional stress
Answer» B. proof stress
Discussion
13.

to calclulate proof stress, method is used

A. offset
B. bending
C. shear
D. all of the above
Answer» B. bending
Discussion
14.

                 is maximum value of stress upto which stress is directly proportional to strain

A. elastic limit
B. proportional limit
C. yield stress
D. all of the above
Answer» C. yield stress
Discussion
15.

for calculating a proof stress, a parallel line is drawn at

A. 0.1% of yield elongation
B. 0.2% of total elongation
C. 0.2% of yield elongation
D. 0.1% of total elongation
Answer» C. 0.2% of yield elongation
Discussion
16.

                   property is not directly shown on the stress strain curve

A. ductility
B. malleability
C. stiffness
D. all of the above
Answer» E.
Discussion
17.

               is the stress at which material shows a specified amount of plastic deformation

A. yirld point stress
B. proportional limit
C. proof stress
D. ultimate tensile stress
Answer» D. ultimate tensile stress
Discussion
18.

in tensile stress, necking occurs at a point where

A. (dσt/det) = et
B. (det/dσt) = σt
C. (det/dσt) = et
D. (dσt/det) = σt
Answer» E.
Discussion
19.

the relation between true stress and engineering stress is

A. σe=σt(1+e)
B. σt=σe(1+e)
C. σt=σe(1-e)
D. σe=2σt(1+e)
Answer» C. σt=σe(1-e)
Discussion
20.

the material which does not show the predefined yield stress, the yield stress can be determined by

A. prone stress method
B. proof stress method
C. any one of above
D. none of the above
Answer» C. any one of above
Discussion
21.

the tests which come under the group of destructive tests are

A. tensile and compressive test
B. shear and bend test
C. impact and fatigue test
D. any one of above
Answer» E.
Discussion
22.

the relation between true strain and engineering strain is

A. e=ln(1+et)
B. et=ln(1+2e)
C. et=ln(1-2e)
D. et=ln(1+e)
Answer» E.
Discussion
23.

the test which come under the group of destructive tests is

A. dye penetrant test
B. ultrasonic test
C. eddy current test
D. none of the above
Answer» E.
Discussion
24.

during the tensile test, the length of specimen and its cross section area

A. increases, increases
B. decreases, increases
C. increases, decreases
D. decreases, decreases
Answer» D. decreases, decreases
Discussion
25.

in engineering stress we consider

A. original cross section
B. instantaneou s cross section
C. cross section after the test
D. none of the above
Answer» B. instantaneou s cross section
Discussion
26.

the graphical representation of results of tensile test is known as

A. stress strain curve
B. s-n curve
C. creep curve
D. none of the above
Answer» B. s-n curve
Discussion
27.

any sudden change in cross section leads to the formaiton of area

A. stiff
B. stres concentratio n
C. any one of above
D. none of the above
Answer» C. any one of above
Discussion
28.

all the calculations in tensile test are carried out on a particular distance which is called as

A. gauge length
B. gause length
C. gase length
D. none of the above
Answer» B. gause length
Discussion
29.

after ultimate stress, stress goes on

A. reducing
B. increasing
C. stabilised
D. all of the above
Answer» B. increasing
Discussion
30.

dummy pointer on load - cell is used to indicate

A. yield load
B. breaking load
C. ultimate load
D. none of the above
Answer» D. none of the above
Discussion
31.

for measuring the elongation of specimen on UTM during tensile test is used

A. durometer
B. elastometer
C. vernier
D. extensomete r
Answer» E.
Discussion
32.

true stress is defiend as

A. instantaneou s load / (original cross section area)
B. applied load / (actual cross section area)
C. applied load / (original cross section area)
D. instantaneou s load / (original cross section area)
Answer» E.
Discussion
33.

A tensile test specimen has cross section

A. square
B. rectangular
C. circular
D. all of the above
Answer» E.
Discussion
34.

modulus of resilience is given as

A. 2σ2/e
B. σ2/e
C. σ2/2e
D. σ2/4e
Answer» D. σ2/4e
Discussion
35.

modulus of resilience is

A. toughness / volume
B. resilience / volume
C. energy absorbed / volume
D. stiffness / volume
Answer» D. stiffness / volume
Discussion
36.

engineering stress is defined as

A. instantaneou s load / (original cross section area)
B. applied load / (actual cross section area)
C. applied load / (original cross section area)
D. instantaneou s load / (actual cross section area)
Answer» D. instantaneou s load / (actual cross section area)
Discussion
37.

for tensile testing machine is used

A. universal testing
B. impact testing
C. fatigue testing
D. torsion testing
Answer» B. impact testing
Discussion
38.

materials like Al shows better

A. ductility
B. malleability
C. toughness
D. all of the above
Answer» E.
Discussion
39.

                 is the property of a material by which it can be drawin into wires

A. ductility
B. plasticity
C. malleability
D. toughness
Answer» B. plasticity
Discussion
40.

resistance of a material for its deformation is called as

A. hardness
B. toughness
C. stiffness
D. all of the above
Answer» D. all of the above
Discussion
41.

ductile material shows toughness

A. low
B. high
C. medium
D. none of the above
Answer» C. medium
Discussion
42.

brittle material shows toughness

A. low
B. high
C. medium
D. none of the above
Answer» B. high
Discussion
43.

modulus of toughness is

A. toughness/ar ea
B. toughness/vo lume
C. toughness/wi dth
D. toughness/le ngth
Answer» C. toughness/wi dth
Discussion
44.

toughness is defined as total energy absorbed by material in

A. elastic region
B. plastic region
C. both of the above
D. none of the above
Answer» D. none of the above
Discussion
45.

total area under stress-strain curve is called as

A. toughness
B. resilience
C. malleability
D. ductility
Answer» B. resilience
Discussion
46.

area under stress-strain curve in elastic region is called as

A. resilience
B. stiffness
C. toughness
D. modulus of elasticity
Answer» B. stiffness
Discussion
47.

material shows localised deformation after

A. after yield point
B. after uts
C. before yield point
D. before uts
Answer» C. before yield point
Discussion
48.

the material shows atrain at cnstant stress that point is known as

A. yield stress
B. ultimate tensile stress
C. breaking stress
D. all of the above
Answer» B. ultimate tensile stress
Discussion
49.

material obey's hooks law in region

A. plastic deformation
B. elastic deformation
C. the region of change of elasticity to plasticity
D. none of the above
Answer» C. the region of change of elasticity to plasticity
Discussion
50.

           is constant at the yield point

A. strain
B. stress
C. temperature
D. all of the above
Answer» C. temperature
Discussion