Explore topic-wise InterviewSolutions in Current Affairs.

This section includes 7 InterviewSolutions, each offering curated multiple-choice questions to sharpen your Current Affairs knowledge and support exam preparation. Choose a topic below to get started.

1.

Lead salts react with K_2CrO_4 to give precipitates of :

Answer»

WHITE COLOUR
yellow colour
RED colour
blue colour

SOLUTION :`PbCl_2 + K_2CrO_4 to underset("Lead chromate (Yellow Colour)")(PbCrO_4) + 2KCl`
Discussion
2.

Lead sulfide has fcc structure. The edge length of the unit cell of PbS crystal is 500 pm What is its density ?

Answer»

Solution :MOLECULAR mass of PBS = 207.2+32 = 239.2
Edge length, a = 500 , pm
NUMBER of molecules per unit cell, Z=4 (for fcc structure)
Density of unit cell, `d= (Zxx M)/(N_A XX a^3 xx 10^(-30)) g cm^(-3)`
`therefore d = (4xx239.2 g "mol"^(-1))/(6.022 xx 10^(23) "mol"^(-1) xx (500)^3 xx 10^(-30) cm^3)`
`= (956.8)/(75.275) g cm^(-3) = 12.7 g cm^(-3)`
Discussion
3.

Lead sugar is :

Answer»

`PbCl_2`
`PB(NO_3)_2`
`PbSO_4`
`(CH_3COO)_2Pb`

ANSWER :D
Discussion
4.

Lead poisoning in the body can be removed by:

Answer»

EDTA in the FORM of clacium dihydrogen SALT
cis-platin
Zeisse's salt
DMG

Answer :C
Discussion
5.

Lead pipes can be used for:

Answer»

SOFT water
HARD water
Both hard and soft water
None of the above

Answer :B
Discussion
6.

Lead pencils contains :

Answer»

LEAD nitrate
Pb
Graphite
Mixture of lead and carbon.

Answer :C
Discussion
7.

Lead pipes are readily corroded by :

Answer»

`H_2SO_4`
HCL
`CH_3COOH`
PURE water

Answer :C
Discussion
8.

Lead pipes are not suitable for drinking water, because :

Answer»

LEAD forms basic lead carbonate
Lead reacts with water CONTAINING air to form `Pb(OH)_2`
A layer of lead DIOXIDE is deposited over pipes
Lead reacts with air OT form litharge

Answer :B
Discussion
9.

Lead pencil contains:

Answer»

Pb
FeS
Graphite
PbS

Answer :C
Discussion
10.

Lead pencil' contains

Answer»

PBS
Graphite
FeS
Pb

ANSWER :B
Discussion
11.

Lead (P) causes

Answer»

RADIOACTIVE pollution
Air pollution
Soil pollution
All of the above

Answer :B
Discussion
12.

Lead pencil is manufactured by mixing clay with :

Answer»

Lead
Graphite
Lamp black
Bone black

Answer :B
Discussion
13.

Lead nitrate of heating gives lead oxide, nitrogen dioxide and oxygen. This reaction is known as

Answer»

COMBUSTION
Combination
Displacement
Decompostion

Solution :`2Pb(NO_(3))_(2)overset("heat")to 4NO_(2)+2PbO +O_(2)`
It is decomposition REATION because lead nitrite on heating DECOMPOSES to Lead oxide, nitrogen dioxide and oxygen.
Discussion
14.

Lead nitrate on heating gives lead oxide, nitrogen dioxide and oxygen. The reaction is known as:

Answer»

Combustion
Combination
Displacement
Decomposition

Answer :D
Discussion
15.

Lead (IV) oxide is obtained by

Answer»

heating LEAD (II) oxide STRONGLY in air
heating lead strongly in pure OXYGEN
oxidising lead with CONC. `HNO_(3)`
none of these

Solution :`Pb_(3)O_(4)+4HNO_(3) overset(Delta)to2Pb(NO_(3))_(2)+2H_(2)O+PbO_(2)`
Discussion
16.

Lead is present in petrol in the from of _________as_________agent.

Answer»


ANSWER :A::B::C::D
Discussion
17.

Lead is only slightly attacked dilute hydrochloric acid , because

Answer»

Pb is less ELECTROPOSITIVE than HYDROGEN
`PbO_2` film is always present on Pb, which RESISTS chemical ATTACK
PBO film is formed , which resists chemical attack by acid
a protective coating of `PbCl_2` is formed on the Pb surface

Answer :D
Discussion
18.

Lead is not affected by dilute HCl in cold, because:

Answer»

PB is less electronegative than H
PbO FILM is formed which resists chemical attack by acid
A protective coating of `PbCI_2` is formed on Pb SURFACE
`PbO_2` film is ALWAYS present on Pb surface, which resists chemical attack

Answer :C
Discussion
19.

Lead in water can cause.

Answer»

EYE disease
Arthritis
Kidney damage
Hair falling

Answer :C
Discussion
20.

Lead has been placed in qualitative group analysis Ist and 2nd because

Answer»

It shown the valency one and two
it FORMS insoluble `PbCI_(2)`
It form LEAD salphide
`PbCI_(2)` is parially soluble in water

SOLUTION :Pb form `PbCI_(2)` in GROUP I and PbS in group II Lead salt are partiallysoluble in water
Discussion
21.

Lead has been placed in the group I and II because

Answer»

it shows the valency of one and two
it forms INSOLUBLE `PbCl_(2)`
it forms lead sulphide
it is partially soluble in water

Solution :`PbCl_(2)` is partially soluble in water and dissolves completely only in hot water. So , part of it goes to group II, Where it is precipitated as PbS.
Discussion
22.

Lead exhausted in the atmosphere by automobiles using leaded petrol (i.e.,tetraethyl lead for improving octant number ) is a lethal air pollutant, which causes :

Answer»

PARALYSIS of MUSCLES and LOSS of appetite
Nervous depression
Gastritis and diarrhoea
All of the above

Answer :D
Discussion
23.

Lead containers are generally used for storing radioactive materials. This is because :

Answer»

LEAD is stable
lead has high ATOMIC mass
lead is a poor conductor
lead is a GOOD ABSORBER.

Answer :D
Discussion
24.

Lead accumulator cell consists of

Answer»

`20% H_(2)SO_(4)` solution
`3.2 M H_(2)SO_(4)` solution
`H_(2)SO_(4)` of sp. GRAVITY 1.15
dilute solution of `H_(2)SO_(4)`

ANSWER :B
Discussion
25.

Lead accumulator is a secondary storage cell because

Answer»

it is an irreversible cell
electrical ENERGY is previouslystored in it from an EXTERNAL source
electrolysis occurs in it
it involves `H_(2)SO_(4)` solution

Solution :After SETTING the cell, it should be charged.
Discussion
26.

Lead accumulator cell can be maintained in good working condition when

Answer»

the CELL is allowed to run upto 1.7 V
the cell is not allowed to run upto 1.17 V
the cell is not completely removed from the cell
the cell is not disconnected when not in use

Solution :Voltage decreases with decrease in specific GRAVITY of `H_(2)So_(4)`.
Discussion
27.

Lead accumulator.

Answer»

SOLUTION :
Discussion
28.

Leaching process is used to get :-

Answer»

Ag
Au
Both
None

Answer :C
Discussion
29.

Leaching of gold is carried out by.....

Answer»

`CaCN_2`
`KCN
`HCN
`NACN

ANSWER :B
Discussion
30.

Leaching of an ore is done by

Answer»

HALL's process
Serpeck's process
Cyanide process
Hall-Heroult process

Answer :C
Discussion
31.

Leaching is commercially carried out for in the concentration of :

Answer»

Galena
Argentite
Copper pyrites
Tin stone

Solution :Leaching is carried out for the concentration of argentire `(Ag_(2)S)`
(i) `Ag_(2)S+4NaCN overset("AIR")to 2Na[Ag(CN)_(2)]^(-)+Na_(2)S overset("Air")to Na_(2)SO_(4)+S`
Discussion
32.

Leaching is also called as……..

Answer»

HAND picking
Electrolysis
Chemical process
Magnetic SEPARATION process

Answer :C
Discussion
33.

Leaching .

Answer»

Solution :It is a (CHEMICAL) process used in the concentration of an ore by EXTRACTING soluble maerial from an insoluble solid by dissolving in a suitable solvent. This method is used in the concentration process of ores of AL, Ag, AU, etc.
Discussion
34.

Leaching is a process of concentration of ores. Explain the leaching ofalumina from bauxite.

Answer»


ANSWER :REFER to the answer of MARCH 2010 (C )
Discussion
35.

Leaching is a process of:

Answer»

Reduction
Concentration
Reformation
Oxidation

Answer :B
Discussion
36.

Le-Chatelier's principle is not applicable to which of the following reaction?

Answer»

`N_2(g)+3H_2(g) ltimplies 2NH_3(g)`
`PCL_5(g) ltimplies PCL _3(g)+CL_2(g)`
`FE(s) +S(s) ltimplies FES(s) `
`CACO _3(s)ltimplies CAO (s) +CO_2`

Answer :C
Discussion
37.

Le-Chatelier's principle is applicable only to a

Answer»

SYSTEM in equlibrium
Irreversible REACTION
Homogeneous reaction
HETEROGENOUS reaction

ANSWER :A
Discussion
38.

Le chatelier's principle If a system at equilibrium is subjected to a change of any one of the factors such as concentration, pressure or temperature, the system adjusts itself in such a way so as to minimise the effect of that change. Change of pressure: If a system in equilibrium consists of gases, then the concentrations of all the components can be altered by changing the pressure.When the pressure on the system is increased, the volume decreases proportionately.The total number of moles per unit volume will now be more and the equilibrium will shift in the direction in which there is decrease in number of moles i.e., towards the direction in which there is decrease in volume. Effect of pressure on melting point : There are two types of solids : (a)Solids whose volume decreases on melting e.g. ice, diamond , carborundum, magnesium nitride and quartz. Solid (higher volume)hArr Liquid (lower volume) The process of melting is facilitated at high pressure, thus melting point is lowered. (b)Solids whose volume increase on melting, e.g. Fe,Cu, Ag,Au, etc. Solid (lower volume)hArr Liquid (higher volume) In this case the process of melting becomes difficult at high pressure, then melting point becomes high. (c )Solubility of subtances : When solid substance are dissolved in water, either heat is evolved (exothermic) or heat is absorbed (endothermic). KCl+aq hArr KCl(aq)-heat In such cases,solubility increase with increase in temperature. Consider the case of KOH, when this is dissolved heat is evolved. KOH+aq hArr KOH(aq)+heat In such cases, solubility decrease with increase in temperature. (d)Solubility of gases in liquids : When a gas dissolves in liquid, there is decreases in volume. Thus, increases of pressure will favour the dissolution of gas in liquid. Effect of temperature: Le-Chatelier's principle predicts a system at equilibrium will tend to shift in the endothermic direction when temperature is raised, for then energy is absorbed as heat and the rise in temperature is opposed.Conversely, an equilibrium will shift in the exothermic direction if the temperature is lowered, for then energy is released and the reduction in temperture is opposed Van't Hoff equation shows the dependence of equilibrium constant K on temperaure as : d/(dT)lnK=(DeltaH^@)/(RT^2) or ln K="constant"-(DeltaH^@)/R.1/T The plot of log K against 1/T is a straight line with positive slope ( K being the equilibrium constant of a reaction ), which of the following is then correct ?

Answer»

The reaction is endothermic in nature
The reaction WILLL be exothermic in nature
The reaction goes to farther extent on raising the temperature
None of these

Solution :Since the slope of the STRAIGHT LINE graph between LOG K and `1/T` is positive ,`DeltaH_("reaction")` would be negative, i.e., the forward reaction would be exothermic.
Discussion
39.

Le chatelier's principle If a system at equilibrium is subjected to a change of any one of the factors such as concentration, pressure or temperature, the system adjusts itself in such a way so as to minimise the effect of that change. Change of pressure: If a system in equilibrium consists of gases, then the concentrations of all the components can be altered by changing the pressure.When the pressure on the system is increased, the volume decreases proportionately.The total number of moles per unit volume will now be more and the equilibrium will shift in the direction in which there is decrease in number of moles i.e., towards the direction in which there is decrease in volume. Effect of pressure on melting point : There are two types of solids : (a)Solids whose volume decreases on melting e.g. ice, diamond , carborundum, magnesium nitride and quartz. Solid (higher volume)hArr Liquid (lower volume) The process of melting is facilitated at high pressure, thus melting point is lowered. (b)Solids whose volume increase on melting, e.g. Fe,Cu, Ag,Au, etc. Solid (lower volume)hArr Liquid (higher volume) In this case the process of melting becomes difficult at high pressure, then melting point becomes high. (c )Solubility of subtances : When solid substance are dissolved in water, either heat is evolved (exothermic) or heat is absorbed (endothermic). KCl+aq hArr KCl(aq)-heat In such cases,solubility increase with increase in temperature. Consider the case of KOH, when this is dissolved heat is evolved. KOH+aq hArr KOH(aq)+heat In such cases, solubility decrease with increase in temperature. (d)Solubility of gases in liquids : When a gas dissolves in liquid, there is decreases in volume. Thus, increases of pressure will favour the dissolution of gas in liquid. Effect of temperature: Le-Chatelier's principle predicts a system at equilibrium will tend to shift in the endothermic direction when temperature is raised, for then energy is absorbed as heat and the rise in temperature is opposed.Conversely, an equilibrium will shift in the exothermic direction if the temperature is lowered, for then energy is released and the reduction in temperture is opposed Van't Hoff equation shows the dependence of equilibrium constant K on temperaure as : d/(dT)lnK=(DeltaH^@)/(RT^2) or ln K="constant"-(DeltaH^@)/R.1/T For the reaction 1/2N_2(g)+1/2O_2(g)hArrNO(g)

Answer»

Total PRESSURE at EQUILIBRIUM will CHANGE
Concentration of all the component at equilibrium will not change
Concentration of all the component at equilibrium will remain same
Equilibrium will shift in the forward direction

Solution :NA
Discussion
40.

Le chatelier's principle is

Answer»

if a system in equilibrium is subjected to a change of concentration, pressure of TEMPERATURE , the equilibrium SHIFTS in the direction that tends to a null the effect of change.
APPLICABLE to all of dynamic equilibrium
given to study the effect to state variables
none of the above

Answer :A::B::C
Discussion
41.

Le-Chatelier's principle is

Answer»

if a system in equilibrium is SUBJECTED to a CHANGE of concentration, pressure or temperature, the equilibrium shifts in the direction that tends to undo the effect of change
applicable to all TYPE of dynamic equilibrium
applicable to IRREVERSIBLE system
applicable to all physical and chemical equilibrium

SOLUTION :Let-Chatelier.s principle is applilcable for reversible system.
Discussion
42.

Le chatelier's principle If a system at equilibrium is subjected to a change of any one of the factors such as concentration, pressure or temperature, the system adjusts itself in such a way so as to minimise the effect of that change. Change of pressure: If a system in equilibrium consists of gases, then the concentrations of all the components can be altered by changing the pressure.When the pressure on the system is increased, the volume decreases proportionately.The total number of moles per unit volume will now be more and the equilibrium will shift in the direction in which there is decrease in number of moles i.e., towards the direction in which there is decrease in volume. Effect of pressure on melting point : There are two types of solids : (a)Solids whose volume decreases on melting e.g. ice, diamond , carborundum, magnesium nitride and quartz. Solid (higher volume)hArr Liquid (lower volume) The process of melting is facilitated at high pressure, thus melting point is lowered. (b)Solids whose volume increase on melting, e.g. Fe,Cu, Ag,Au, etc. Solid (lower volume)hArr Liquid (higher volume) In this case the process of melting becomes difficult at high pressure, then melting point becomes high. (c )Solubility of subtances : When solid substance are dissolved in water, either heat is evolved (exothermic) or heat is absorbed (endothermic). KCl+aq hArr KCl(aq)-heat In such cases,solubility increase with increase in temperature. Consider the case of KOH, when this is dissolved heat is evolved. KOH+aq hArr KOH(aq)+heat In such cases, solubility decrease with increase in temperature. (d)Solubility of gases in liquids : When a gas dissolves in liquid, there is decreases in volume. Thus, increases of pressure will favour the dissolution of gas in liquid. Effect of temperature: Le-Chatelier's principle predicts a system at equilibrium will tend to shift in the endothermic direction when temperature is raised, for then energy is absorbed as heat and the rise in temperature is opposed.Conversely, an equilibrium will shift in the exothermic direction if the temperature is lowered, for then energy is released and the reduction in temperture is opposed Van't Hoff equation shows the dependence of equilibrium constant K on temperaure as : d/(dT)lnK=(DeltaH^@)/(RT^2) or ln K="constant"-(DeltaH^@)/R.1/T Au(s)hArrAu(l)

Answer»

HIGH PRESSURE, low temperature
High pressure, high temperature
Low pressure, high temperature
Low pressure, low temperature

Solution :Since density of GOLD decreases after melting THEREFORE it is favourable at low pressure and high temperature
Discussion
43.

Le-Chatelier principle is not applicable to

Answer»

`H_(2(g))+I_(2(g))hArr2HI_((g))`
`Fe_((s))+S_((s))+hArrFeS_((s))`
`N_(2(g))+3H_(2(g))hArr2NH_(3(g))`
`N_(2(g))+O_(2)hArr2NO_(2(g))`

Solution :LE chatelier PRINCIPLE is not applicable to solid-solid equlibrium.
Discussion
44.

Le-blanc process is employed in the manufacturing of

Answer»

BAKING SODA
CAUSTIC soda
Soda ASH and potash
Plaster of Paris

Answer :C
Discussion
45.

LDPE is a homopolymer, while nylon 6, 6 is a copolymer. Explain

Answer»

Solution :Polymer formed by the polymerisation of one type of monomer is known as homopolymer.
LDPE 9 or LDP) is formed by the polymerisation of ETHENE `(CH_2=CH_2)`. So it is a homopolymer.
Polymer formed by the polymerisation of two or more different monomers is called copolymer. Since nylon 6,6 is formed by the polymerisation of ADIPIC acid and HEXAMETHYLENE DIAMINE, it is a copolymer.
Discussion
46.

ldentify the monohydrie unsaturated alcohol.

Answer»

`CH_3-CH_2OH`
`CH_2=CHOH`
`{:(CH_2OH),(|),(CH_2OH):}`
`C_6H_5CH_2OH`

SOLUTION :`CH_2=CHOH`
Discussion
47.

ldentify the incorrect statement(s)?

Answer»

<P>The ratio of the OBSERVED molar volume to ideal molar volume is called compressibility factor
The value of VAN der Waals' constants 'a' and 'b' is independent of the nature of gas.
At high temperature and low pressure, the behaviour of any gas. can be explained by `P+(an^(2))/(V^(2))(V-nb)=nRT`
`H_(2) and He` gases are difficult to liquefy because their Boyle temperature is less than `0^(@)C`

Answer :B::C
Discussion
48.

Layers of carbon atoms in graphite are held together by :

Answer»

1. Covalent bonds
2. Hydrogen bonds
3. VAN der Waals forces
4. Double bonds

Answer :C
Discussion
49.

Law of raciprocd proportions can be used to determine :

Answer»

ATOMIC WEIGHT of gas
equivalent WEIGHTS
molecular weights of gases
None of these

Answer :B
Discussion
50.

Law of multiple proportion was given by

Answer»

Lavosivier
Dalton
Proust
Gaylussac

Answer :B
Discussion