Dear Readers, Welcome to Electrolysis and Storage of Batteries 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 Electrolysis and Storage of Batteries MCQs. These objective type Electrolysis and Storage of Batteries 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) Newton's law
(b) Faraday's law of electromagnetic
(c) Faraday's law of electrolysis
(d) Gauss's law
Ans: c
(a) time
(b) Faraday's
(c) Boltzman
Ans: b
(a) its voltage increases
(b) it gives out energy
(c) its cathode becomes dark chocolate brown in colour
(d) specific gravity of H2SO4 decreases
Ans: a
(a) temperature
(b) rate of charge
(c) rate of discharge
(d) quantity of active material
Ans: b
(a) increases
(b) decreases
(c) remains the same
(d) becomes zero
Ans: a
(a) lead and lead peroxide
(b) lead sulphate and lead
(c) lead peroxide and lead
(d) none of the above
Ans: c
(a) dark grey
(b) brown
(c) dark brown
(d) none of above
Ans: c
(a) nickel hydroxide
(6) powdered iron and its oxide
(c) 21% solution of KOH
(d) all of the above
Ans: d
(b) always greater than one
(c) always less than one
(d) none of the above.
Ans: b
(a) output voltage
(b) temperature of electrolyte
(c) specific gravity of electrolyte
(d) none of the above
Ans: c
(a) nickel-cadmium battery
(b) zinc-carbon battery
(c) lead-acid battery
(d) none of the above
Ans: c
(a) less than the battery voltage
(b) higher than the battery voltage
(c) the same as the battery voltage
(d) none of the above
Ans: b
(a) increase the voltage rating
(6) increase the current rating
(c) increase the life of the cells
(d) none of the above
Ans: a
(a) 1 V
(6) 1.5 V
(c) 1.75 V
(d) 2 V
Ans: d
(a) current rating
(b) voltage rating
(e) ampere-hour rating
(d) none of the above
Ans: c
(a) corrosive fumes are produced
(b) water is neither formed nor absorbed
(c) nickel hydroxide remains unsplit
(d) its e.m.f. remains constant
Ans: b
(a) reducing time of charging
(b) increasing cell capacity
(c) both (a) and (b)
(d) avoiding excessive gassing
Ans: c
(a) adding distilled water
(6) adding so-called battery restorer
(c) a dose of H2SO4
(d) none of the above
Ans: d
(a) compactness
(b) lower e.m.f.
(c) small quantity of electrolyte used
(d) higher internal resistance
Ans: d
(a) maintain proper electrolyte level
(b) increase its reserve capacity
(c) prevent sulphation
(d) keep it fresh and fully charged
Ans: d
(a) passive
(b) active
(c) redundant
(d) inert
Ans: b
(a) one part H2O, three parts H2SO4
(b) two parts H2O, two parts H2SO4
(c) three parts H2O, one part H2SO4
(d) all H2S04
Ans: c
(a) there is a rise in voltage
(6) energy is absorbed by the cell
(c) specific gravity of H2SO4 is increased
(d) the anode becomes chocolate brown in colour (PbCfe) and cathode be¬comes grey metallic lead (Pb)
(e) all of the above
Ans: e
(a) both anode and cathode become PbS04
(b) specific gravity of H2SO4 decreases
(c) voltage of the cell decreases
(d) the cell absorbs energy
Ans: d
(a) 20 to 30%
(b) 40 to 50%
(c) 60 to 70%
(d) 90 to 95%
Ans: d
(a) 25 to 35%
(b) 40 to 60%
(c) 70 to 80%
(d) 90 to 95%
Ans: c
(a) amperes
(b) ampere-hours
(c) watts
(d) watt-hours
Ans: b
(a) rate of discharge
(b) temperature
(c) density of electrolyte
(d) quantity of active materials
(e) all above
Ans: e
(a) dull
(b) reddish
(c) bright
(d) milky
Ans: d
(a) 1.4 V
(b) 1 V
(c) 0.9 V
(d) 0.8 V
Ans: a
(a) two
(b) three
(c) four
(d) five
Ans: d
(a) 1 V
(b) 1.2 V
(c) 1.7 V
(d) 2.1 V
Ans: c
(a) 40%
(b) 60%
(c) 70%
(d) 80%
Ans: d
(a) silver oxide
(b) lead oxide
(c) lead
(d) zinc powder
Ans: a
(a) 500
(b) 700
(c) 1000
(d) 1250
Ans: d
(a) five years
(b) seven years
(c) eight years
(d) ten years
Ans: a
(a) less than
(b) more than
(c) equal to
(d) none of the above
Ans: a
(a) NaOH
(b) KOH
(c) HCL
(d) HN03
Ans: b
(a) NaOH
(b) onlyH2S04
(c) only water
(d) dilute H2SO4
Ans: d
(a) copper
(b) lead
(c) iron
(d) silver oxide
Ans: c
(a) its chemical constituents
(b) on the strength of its electrolyte
(c) its temperature
(d) all above
Ans: d
(a) manometer
(6) a mechanical gauge
(c) hydrometer
(d) psychrometer
Ans: c
(a) charged state
(b) discharged state
(c) both (a) and (b)
(d) active state
Ans: b
(a) two rate charge control
(b) trickle charge
(c) floating charge
(d) an equalizing charge
Ans: a
(a) produces excessive gassing
(b) loosens the active material
(e) increases the temperature resulting in buckling of plates
(d) all above
Ans: d
(a) reduces specific gravity of the electrolyte
(b) increases specific gravity of the electrolyte
(c) produces excessive gassing
(d) increases the temperature
Ans: a
(a) breakdown of one or more separators
(b) excess accumulation of sediment at the bottom of the cell
(c) both (a) and (b)
(d) none of the above
Ans: c
(a) increases
(b) decreases
(c) remains same
(d) none of the above
Ans: a
(a) allowing a battery to stand in discharged condition for a long time
(b) topping up with electrolyte
(c) persistent undercharging
(d) low level of electrolyte
(e) all above
Ans: e
(a) active
(b) passive
(c) inert
(d) dielectric
Ans: a
(a) positive active material
(b) negative active material
(c) passive material
(d) none of the above
Ans: b
(a) 1.8 V
(b) 1.9 V
(c) 2 V
(d) 2.1 V
Ans: a
(a) it will bring about chemical change in active materials
(b) it will increase the capacity of the battery
(c) it will raise the specific gravity of the electrolyte
(d) none of the above will occur
Ans: d
(a) to allow gases out when the cell is on charge
(b) to add water to the cell if needed
(c) to check the level of electrolyte
(d) to do all above functions
Ans: d
(a) capacity of the cell is reduced
(b) life of the cell is reduced
(c) open plates are converted to lead sulphate
(d) all above
Ans: d
(a) decreases
(b) increases
(c) remains constant
(d) none of the above
Ans: a
(a) 48 amperes for 1 hour
(b) 24 amperes for 2 hours
(c) 8 amperes for 6 hours
(d) 6 amperes for 8 hours
Ans: d
(a) decreases
(b) increases
(c) remains constant
(d) none of the above
Ans: b
(a) in well ventilated location
(b) in clean and dry place
(c) as near as practical to the battery being charged
(d) in location having all above features
Ans: d
(a) Loss of capacity
(b) Loss of life
(c) Corrosion of the grids of the plate
(d) All above
Ans: d
(a) rectifiers
(b) engine generator sets
(c) motor generator sets
(d) any one of the above methods
Ans: d
(a) low sp. gravity electrolyte
(b) abnormal high temperature
(c) reduced gassing on charge
(d) all above
Ans: d
(a) using vent plug to permit gas formed during discharge
(b) increasing the plate area
(c) putting plates very close together
(d) all above methods
Ans: d
(a) more when it is supplying current for intermittent periods
(b) more when it is supplying current for continuous periods
(c) unaffected by the type of discharge
(d) none of the above
Ans: a
(a) glass
(b) plastic
(c) wood
(d) all above
Ans: d
(a) the loss of capacity of the cell
(6) the decrease of the specific gravity
(c) the low voltage of the cell on discharge
(d) all above conditions
Ans: d
(a) 6 parts of acid to 4 parts of water
(b) 4 parts of acid to 4 parts of water
(c) 4 parts of acid to 6 parts of water
(d) 4 parts of acid to 8 parts of water
Ans: c
(a) excessive gassing under load conditions
(b) excessive drop in the specific gravity of electrolyte even when the cell is on open circuit
(c) both (a) and (b)
(d) none of the above
Ans: d
(a) excessive gassing will occur
(b) temperature rise will occur
(c) bulging and buckling of plates will occur
(d) all above will occur
Ans: d
(a) resistance of electrolyte
(b) electrode resistance
(c) surface contact resistance between electrode and electrolyte
(d) all above
Ans: d
(a) current delivered by the battery will be high
(b) current drawing will be nil
(c) current drawing will be very small
(d) current drawing will be very high
Ans: d
(a) lowered
(b) raised
(c) undisturbed
(d) displaced sideways
Ans: a
(a) Capacity of cell will reduce
(b) Sulphation of plates will occur
(c) Internal resistance will increase
(d) All above will occur
Ans: d
(a) Lead-acid cell, Edison cell, Nickel cadmium cell
(b) Lead-acid cell, Nickel-cadmium cell, Edison cell
(c) Edison cell, Nickel-cadmium cell, lead-acid cell
(d) Nickel-cadmium cell, Edison cell, lead-acid cell
Ans: a
(a) goggles or other face shield
(b) rubber
(c) rubber boots and gloves
(d) all above safety devices
Ans: d
(a) produce gassing
(b) increase the internal resistance of the battery
(c) to corrode the positive plates into lead peroxide thereby weakening them physically
(d) bring about all above changes
Ans: d
(a) equal to that of large dry cell
(6) less than that of large dry cell
(c) more than that of large dry cell
(d) none of the above
Ans: b
(a) ions
(b) holes
(c) electrons
(d) none of the above
Ans: a
(a) below
(b) equal to
(c) above
(d) none of the above
Ans: c
(a) Pb
(b) Pb02
(c) PbO
(d) PbS04
Ans: d
(a) colour
(b) mass
(c) viscosity
(d) specific gravity
Ans: d
(a) colour of electrode
(b) gassing
(c) specific gravity
(d) all above
Ans: d
(a) Deniell cell
(b) Leclanche cell
(e) Lead-acid cell
(d) Edison cell
Ans: b
(a) Ah
(b) Vh
(c) Wh
(d) kWh
Ans: a
(a) dilute sulphuric acid
(b) concentrated sulphuric acid
(c) NaOH
(d) KOH
Ans: d
(a) equal to
(b) less than
(c) more than
(d) much more than
Ans: b
(a) 8
(b) 12
(c) 16
(d) 24
Ans: a
(a) bakelite
(b) rubber
(c) nickel plated steel
(d) aluminium
Ans: c
(a) 0.8
(b) 0.95
(c) 1.1
(d) 1.21
Ans: d
(a) thin aluminium wires
(b) thin copper wires
(c) rigid cables
(d) flexible cables
Ans: d
(a) 1.0
(b) 1.5
(c) 2.4
(d) 2.9
Ans: c
(a) Pb02
(6) PbSC-4
(c) PbO
(d) Pb
Ans: b
(a) no
(b) very little
(c) less
(d) more
Ans: d
(a) 2%
(b) 4%
(c) 6%
(d) 8%
Ans: d
(a) 0.8
(b) 0.9
(c) 1.0187
(d) 1.5
Ans: c
(a) amount of moisture
(b) type of metals
(c) type of soil chemicals
(d) all above factors
Ans: d
(a) Flat discharge current-voltage curve
(6) High power to weight ratio
(c) Comparatively longer shelf life under adverse conditions of high temperature and humidity
(d) All of the above
Ans: d
(a) boiling of electrolyte due to gassing
(b) warping of plates
(c) damage to separators, cell caps covers and battery case due to ex¬cessive temperature
(d) all above
Ans: d
(a) buckling of plates
(b) faulty separators
(c) lead particles forming circuit between positive and negative plates
(d) excessive accumulation of sediment
(e) any one of above
Ans: e
(a) to reduce evaporation of water from electrolyte
(b) to exclude dirt and foreign matter from the electrolyte
(c) to discharge both of the above functions
(d) to discharge none of the above functions
Ans: c
(a) Two electrodes of different meta's should be inserted in the electrolyte, not touching each other
(b) Electrolyte must chemically react with one of the electrodes
(c) Electrolyte liquid or paste should be conducting
(d) All above three conditions are necessary
Ans: d
(a) Lithium
(b) Zinc-chloride
(c) Mercury
(d) Carbon-zinc
Ans: c
(a) Manganese-alkaline
(6) Carbon-zinc
(c) Lithium
(d) Mercury
Ans: c
(a) water is poured into acid
(b) acid is poured into water
(c) anyone of the two can be added to other chemical
Ans: b
(a) Lead-acid battery
(b) Nickel-iron battery
(c) Dry cell battery
(d) Silver oxide battery
Ans: b
(a) Lead-acid
(b) Mercury oxide
(c) Carbon-zinc
(d) Silver-oxide
Ans: a
(a) A storage cell has a reversible chemical reaction
(b) A lead-acid cell can be recharged
(c) A carbon-zinc cell has unlimited shelf life
(d) A primary cell has an irreversible chemical reaction
Ans: c
(a) Dilute H2S04
(6) Concentrated H2SO4
(c) Water
(d) Any of the above
Ans: c
(a) 10% of capacity
(b) 20% of capacity
(c) 30% of capacity
(d) 40% of capacity
Ans: a
(a) they have same e.m.f.
(b) they have same make
(c) they have same ampere-hour capa-city
(d) they have identical internal resistance
Ans: a
(a) 0.1V
(b) 0.26 V
(c) 1.1 V
(d) 2 V
Ans: b
(a) prevent local heating
(b) prevent short-circuiting
(c) reduce path resistance
(d) prevent corrosion
Ans: d
(a) Current
(b) Efficiency of the circuit
(c) Power in the load resistance
(d) Voltage across the load resistance
Ans: c
(a) chlorine
(b) dust particles
(c) lead crystals
(d) iron
Ans: d
(a) charged ions
(b) chemical energy
(c) electrostatic energy
(d) electromagnetic energy
Ans: b
(a) Brake light
(b) Self starter
(c) Parking lights
(d) Spark plugs
Ans: b
(a) Temperature of surroundings
(b) Specific gravity of electrolyte
(c) Rate of discharge
(d) All of the above
Ans: d
(a) increase the efficiency
(b) increase the current capacity
(c) increase the voltage output
(d) increase the internal resistance
Ans: b
(a) minimum efficiency
(b) minimum current capacity
(c) low internal resistance
(d) high internal resistance
Ans: c
(a) solar cells
(b) dry cells
(c) nickel-cadmium cells
(d) lead-acid batteries
Ans: a