Dear Readers, Welcome to Heating and Welding Objective Questions have been designed specially to get you acquainted with the nature of questions you may encounter during your Job interview for the subject of Heating and Welding MCQs. These objective type Heating and Welding questions are very important for campus placement test and job interviews. As per my experience good interviewers hardly plan to ask any particular question during your Job interview and these model questions are asked in the online technical test and interview of many IT companies.
(a) Quicker operation
(b) Higher efficiency
(c) Absence of flue gases
(d) All of the above
Ans: d
(a) Copper
(b) Aluminium
(c) Brass
(d) Steel
Ans: a
(a) Arc heating
(b) Dielectric heating
(c) Induction heating
(d) Resistance heating
Ans: d
(a) Resistance heating
(b) Dielectric heating
(c) Arc heating
(d) Induction heating
Ans: b
(a) Eddy current heating
(b) Arc heating
(c) Induction heating
(d) Dielectric heating
Ans: d
(a) Induction heating
(b) Dielectric heating
(c) Electric resistance heating
(d) All of the above
Ans: c
(a) white body
(b) grey body
(c) black body
(d) transparent body
Ans: a
(a) temperature of the two bodies must be different
(b) both bodies must be solids
(c) both bodies must be in contact
(d) at least one of the bodies must have some source of heating
Ans: a
(a) bodies are kept in vacuum
(b) bodies are immersed in water
(c) bodies are exposed to thermal radiations
(d) temperatures of the two bodies are identical
Ans: d
(a) transmits all incident radiations
(b) absorbs all incident radiations
(c) reflects all incident radiations
(d) absorbs, reflects and transmits all incident radiations
Ans: b
(a) inside boiler furnaces
(b) during melting of ice
(c) through the surface of the insulted pipe carrying steam
(d) from refrigerator coils to freezer of a refrigerator
Ans: a
(a) ablation
(b) radiation
(c) viscous dissipation
(d) irradiation
Ans: a
(a) Water
(b) Steam
(c) Solid ice
(d) Melting ice
Ans: c
(a) Thermal ion release principle
(b) Nucleate heating principle
(c) Resistance heating principle
(d) Electro-magnetic induction principle
Ans: d
(a) Asbestos paper
(b) Diatomaceous earth
(c) 80 percent magnesia
(d) Cork
Ans: b
(a) Prandtl number
(b) Grashoff number
(c) Pecelet number
(d) Nusselt number
Ans: b
(a) Optical pyrometer
(b) Mercury thermometer
(c) Alcohol thermometer
(d) Any of the above
Ans: a
(a) Heat loss through furnace wall will increase
(b) Temperature inside the furnace will fall
(c) Temperature on the outer surface of furnace walls will drop
(d) Energy consumption will increase
Ans: c
(a) lower melting point
(b) higher temperature coefficient
(c) high specific resistance
(d) all of the above
Ans: c
(a) oxidising
(b) deoxidising
(c) reducing
(d) neutral
Ans: a
(a) By disconnecting some of the heating elements
(b) By varying the operating voltage
(c) By varying the current through heating elements
(d) By any of the above method
Ans: d
(a) phase angle
(b) frequency
(c) current
(d) voltage
Ans: b
(a) Coreless transformers
(b) Current transformers
(c) Motor-generator set
(d) Multi-phase transformer
Ans: c
(a) Heat treatment of castings
(b) Heating of insulators
(c) Melting aluminium
(d) None of the above
Ans: a
(a) arc heating
(b) resistance heating
(c) induction heating
(d) dielectric heating
Ans: b
(a) voltage variation
(b) thermostat
(c) auto-transformer
(d) series-parallel operation
Ans: d
(a) as an insulator
(b) as a device for power factor improvement
(c) for dielectric heating
(d) for induction heating
Ans: a
(a) Insulating materials
(b) Conducting materials which are magnetic
(c) Conducting materials which are non-magnetic
(d) Conducting materials which may or may not be magnetic
Ans: d
(a) reduce the length of heating element
(b) increase the life of the heating element
(c) reduce the effect of oxidation
(d) produce large amount of heat
Ans: a
(a) nickel copper
(b) nichrome
(c) silicon carbide
(d) silver
Ans: c
(a) Indirect arc furnace
(b) Core less furnace
(c) Either of the above
(d) None of the above
Ans: a
(a) To achieve better heating
(b) To increase the life of roof refractory
(c) To have better stirring action
(d) To reduce problem of oxidation
(e) All of the above
Ans: e
(a) radiation
(b) convection
(c) conduction
(d) any of the above
Ans: a
(a) To avoid initial rush of current
(b) To avoid change in kW rating with temperature
(c) Both (a) and (b)
(d) Either (a) or (b)
Ans: c
(a) Variation of resistance
(b) Variation of voltage
(c) Periodical switching on and off of the supply
(d) All of the above methods
Ans: d
(a) zero
(b) 0.707 lagging
(c) unity
(d) 0.707 leading
Ans: b
(a) T1
(b) T2
(c) T3
(d) T*
Ans: d
(a) to stabilize the arc
(b) to imprpve, power factor
(c) to reduce severity of the surge
(d) none of the above
Ans: a
(a) it is filled below core level
(b) it is filled above core level
(c) it is fully empty
(d) none of the above
Ans: b
(a) bad, good
(b) bad, bad
(c) good, bad
(d) good, good
Ans:
(a) series
(b) parallel
(c) series-parallel connections
(d) star-delta connections
(e) all of the above ways
Ans: e
(a) induction heating of steel
(b) dielectric heating
(c) induction heating of brass
(d) resistance heating
Ans: a
(a) induced current flow through the charge
(b) hysteresis loss taking place below curie temperature
(c) due to hysteresis loss as well as eddy current loss takingplace in the charge
(d) none of the above factors
Ans: c
(a) Annealing of metals
(b) Melting of ferrous metals
(c) Heating of liquids in electric kettle
(d) Drying of paints and varnishes
Ans: d
(a) Thermostat
(b) Thermocouple
(c) Auto-transformer
(d) Heating elements of variable resis-tance material
Ans: b
(a) copper alloy
(b) carbon
(c) tungsten alloy
(d) stainless steel alloy
Ans: c
(a) The amount of heat generated can be controlled accurately
(b) Heat at very high rate can be gene-rated
(c) The area of the surface over which heat is produced can be accurately controlled
(d) All of the above
Ans: d
48. The electrode of a direct arc furnace is made of
(a) tungsten
(b) graphite
(c) silver
(d) copper
Ans: b
(a) Unity
(b) Low, lagging
(c) Low, leading
(d) Any of the above
Ans: b
(a) Current
(b) Voltage
(c) Power factor
(d) All of the above
Ans: a