On addition of conc. H2SO4 to a chloride salt, colourless fumes are evolved but in case of iodide salt, violet fumes come out. This is because
A. H2SO4 reduces HI to I2
B. HI is of violet colour
C. HI gets oxidised to I2
D. HI changes to HIO3
On addition of concentrated H2SO4 to iodide salt violet fumes comes out because HI formed during the reaction react with oxygen present in the atmosphere to form I2 which is violet in colour.
2NaCl + H2SO4 Na2SO4 + 2HCl
HCl produced during the reaction is colourless and pungent smelling gas.
2NaI + H2SO4 Na2SO4 + 2HI 2H2O + SO2 +I2
Thus the halogen acid(HI) obtained in this reaction is oxidized to form I2.
Hence the correct option is (iii).
In qualitative analysis when H2S is passed through an aqueous solution of salt acidified with dil. HCl, a black precipitate is obtained. On boiling the precipitate with dil. HNO3, it forms a solution of blue colour. Addition of excess of aqueous solution of ammonia to this solution gives _________.
A. deep blue precipitate of Cu (OH)2
B. deep blue solution of [Cu (NH3)4]2+
C. deep blue solution of Cu(NO3)2
D. deep blue solution of Cu(OH)2.Cu(NO3)2
when H2S is passed through an aqueous solution of salt acidified with dilute HCl
Cu2+ + H2S CuS + 2H+
Black precipitate of copper sulphide is formed. When copper sulphide is heated with dil. HNO3 it gives blue colour of copper nitrate( on boiling), when aqueous solution of ammonia is added to it deep blue colour of tetraammine copper(II)sulphate [Cu(NH3)4]2 is obtained.
CuS + dil.HNO3 Cu(NO3)2
Cu(NO3)2 + 4NH3 [Cu(NH3)4]2+
Hence the correct option is (ii)
In a cyclotrimetaphosphoric acid molecule, how many single and double bonds are present?
A. 3 double bonds; 9 single bonds
B. 6 double bonds; 6 single bonds
C. 3 double bonds; 12 single bonds
D. Zero double bonds; 12 single bonds
Cyclotrimetaphosphoric acid contains 3 double bonds, and 12 single bonds as described in the figure. a,b,c represents double bond between o and P while numbering from 1 to 12 represents single bonds.
Hence the correct option is (iii).
NOTE: single bond consist of only sigma bond and double bond consist of one sigma and one pie bond.
Which of the following elements can be involved in pp–dp bonding?
A. Carbon
B. Nitrogen
C. Phosphorus
D. Boron
nitrogen, carbon, boron does not form d-p multiple bonds due to absence of vacant d orbitals.
Phosphorous can form d-p bonding because it contains p orbitals as well d orbitals.
Hence the correct option is (iii).
Which of the following pairs of ions are isoelectronic and isostructural?
A.
B.
C.
D.
ISOELECTRONIC SPECIES: the elements or ions which have same number of electrons are known as isoelectronic species. They may vary in their chemical and physical properties.
ISOSTRUCTURAL SPECIES: the compounds which have same shape and hyberdisation is called isostructural species.
There are 32 electrons in and sp2 hyberdisation.
In also there are 32 electrons and sp2 hyberdisation.
Both have trigonal planar structure, therefore they are isolectronic as well as isostructural species.
Hence the correct option is (i).
Affinity for hydrogen decreases in the group from fluorine to iodine. Which of the halogen acids should have highest bond dissociation enthalpy?
A. HF
B. HCl
C. HBr
D. HI
BOND DISSOCIATION ENTHALPY: bond dissociation enthalpy is defined as the energy required to break the bonds between two atoms.
With increase in bond length, bond dissociation enthalpy decreases because bond of large length is easy to break than bond of smaller length. Larger amount of energy is required to break the small bond while very less amount of energy is required to break large bond.
Thus bond dissociation enthalpy is inversely proportional to bond length.
As we move from HF to HI the bond length increases and bond dissociation enthalpy decreases down the halides.
Hence the correct option is (i).
Bond dissociation enthalpy of E—H (E = element) bonds is given below. Which of the compounds will act as strongest reducing agent?
A. NH3
B. PH3
C. AsH3
D. SbH3
A reducing agent is a compound or element that losses electron.
A strong reducing agent looses electron more easily as compared to weak reducing agent.
SbH3 acts as strongest reducing agent due to minimum value of bond dissociation enthalpy.
It requires less bond dissociation enthalpy to break bonds, therefore it can easily donate electrons to other chemical species.
NOTE: lesser will be bond dissociation enthalpy, less time is taken to break the bond between atom and more easily it can loses electrons to form bond with another atom
Therefore stronger is the reducing agent.
Hence the correct option is (iv)
On heating with concentrated NaOH solution in an inert atmosphere of CO2, white phosphorus gives a gas. Which of the following statement is incorrect about the gas?
A. It is highly poisonous and has smell like rotten fish.
B. It’s solution in water decomposes in the presence of light.
C. It is more basic than NH3.
D. It is less basic than NH3.
As trihalides of nitrogen family act as lewis base due to presence of one lone pair of electron and have ability to donate it. In comparison to NH3 and PH3 size of central atom is larger in PH3 and electron density on phosphorous decrease and less available for protonation. Therefore PH3 is less basic than NH3. Hence (iv) is correct statement
When white phosphorous react with NaOH and water it produce phosphine gas which is very harmful, and its solution in water also decomposes in the presence of sunlight. Hence (i) and (ii) statement sare also correct.
The incorrect statement is (iv).
Hence the correct option is (iv).
Which of the following acids forms three series of salts?
A. H3PO2
B. H3BO3
C. H3PO4
D. H3PO3
H3PO2 is monobasic as it consist of only one OH group.
Structure of H3PO2:
H3BO3: it does not act as proton donor but behaves as lewis acid. Boric acid does not dissociate in aqueous solution. It can be predicted from its structure that it have 3 OH group. Boric acid first accept one OH- then it liberates one electron per molecule. Therefore it is monobasic.
H3PO3: it is dibasic as it have two OH group.
structure of H3PO4:
It has three OH group therefore it is tri basic. Oxidation state of phosphorous in H3PO4 is +5.
As it has three OH group, it means that it has 3 ionisable hydrogen atoms and hence form three series of salts. These are:
1.NaH2PO4
2. NaHPO4
3. Na3PO4
Hence the correct option is (iii).
Strong reducing behavior of H3PO2 is due to
A. Low oxidation state of phosphorus
B. Presence of two –OH groups and one P–H bond
C. Presence of one –OH group and two P–H bonds
D. High electron gain enthalpy of phosphorus
All oxyacids of phosphorous which have P-H bond acts as strong reducing agent. H3PO2 has two P-H bond. Therefore it acts as strong reducing agent.
Hence due to presence of one O-H bond and two P-H bond H3PO2 is strong reducing agent. Hence the correct option is (iii).
On heating lead nitrate forms oxides of nitrogen and lead. The oxides formed are ______.
A. N2O, PbO
B. NO2, PbO
C. NO, PbO
D. NO, PbO2
when lead nitrate is heated the following reaction takes place:
2Pb(NO3)22PbO + 4NO2 + O2
Oxygen is released in the air.
Hence the correct option is (ii).
Which of the following elements does not show allotropy?
A. Nitrogen
B. Bismuth
C. Antimony
D. Arsenic
Allotropy is the property of elements to exists in two or more different forms.
Nitrogen does not show allotropy because of its small size and high electro negativity the N-N single bond is weak. Therefore ability of nitrogen to form polymeric structure or more than one structure becomes less.
Hence the correct option is (i).
Maximum covalency of nitrogen is ______________.
A. 3
B. 5
C. 4
D. 6
maximum covalency of nitrogen is four because it cannot extend its covalency due to absence of vacant d orbitals. Nitrogen donates its one lone pair and shows 4 covalency.
Hence the correct option is (iii).
Which of the following statements is wrong?
A. Single N–N bond is stronger than the single P–P bond.
B. PH3 can act as a ligand in the formation of coordination compound with transition elements.
C. NO2 is paramagnetic in nature.
D. Covalency of nitrogen in N2O5 is four.
as electronegativity of nitrogen is greater than phosphorous due to small size of nitrogen therefore N-N bond is weaker than P-P bond.
Hence first statement is wrong.
PH3 acts as ligand in the formation of coordinate compounds due to presence of lone pair. Therefore second statement is correct.
NO2 is paramagnetic in nature due to presence of unpaired electrons. Therefore third statement is also correct.
Nitrogen cannot extend its covalency than 4 therefore fourth statement is also correct.
Hence the correct option is (i).
A brown ring is formed in the ring test for NO3
– ion. It is due to the formation of
A. [Fe(H2O)5 (NO)]2+
B. FeSO4.NO2
C. [Fe(H2O)4(NO)2]2+
D. FeSO4.HNO3
When freshly prepared solution of FeSO4 is added in the solution containing NO3 ion. It leads to the formation of brown coloured complex. This is known as brown colour test of nitrate.
+ 3Fe2+ + 4H+NO + 3Fe3+ + 2H2O
[Fe(H2O6)]2+ + NO [Fe(H2O)5 (NO)]2+ + H2O
Hence the correct option is (i).
Elements of group-15 form compounds in +5 oxidation state. However, bismuth forms only one well characterisedcompound in +5 oxidation state. The compound is
A. Bi2O5
B. BiF5
C. BiCl5
D. Bi2S5
Bismuth commonly shows +3 oxidation state instead of +5 oxidation state due to inert pair effect (recultance of s electrons to take part in bond formation)
But fluorine has small size and high electronegativity than oxygen, chlorine and sulphur.
Therefore bismuth forms BiF5 and show +5 oxidation state.
Hence the correct option (ii).
On heating ammonium dichromate and barium azide separately we get
A. N2 in both cases
B. N2 with ammonium dichromate and NO with barium azide
C. N2O with ammonium dichromate and N2 with barium azide
D. N2O with ammonium dichromate and NO2 with barium azide
(NH4)2Cr2O7N2 + Cr2O3 + 4H2O
Ba(N3)2 3N2 + Ba
As in both the reactions nitrogen gas is released. Hence the correct option is (i).
In the preparation of HNO3, we get NO gas by catalytic oxidation of ammonia. The moles of NO produced by the oxidation of two moles of NH3 will be ______.
A. 2
B. 3
C. 4
D. 6
Two moles of NH3 will produce 2 moles of NO on catalytic oxidation of ammonia in preparation of nitric acid.
2NH3 + O2 2NO + 3H2O
(In this reaction Pt acts as catalyst)
Hence the correct option is (i)
The oxidation state of central atom in the anion of compound NaH2PO2 will be ______.
A. +3
B. +5
C. +1
D. –3
calculation of oxidation state of P
Consider the oxidation state of P be x.
NaH2PO2 : ( +1)+(+1*2)+x+(-2*2) = 0
X = +1
Hence the correct answer is (iii).
Which of the following is not tetrahedral in shape?
A. NH4+
B. SiCl4
C. SF4
D. SO42–
In NH4+ the central atom is sp3hyberdised. Therefore it has tetrahedral shape.
In SiCl4 also central atom is sp3hyberdised. Therefore it has tetrahedral shape.
In SO42 also central atom is sp3hyberdised. Therefore it has tetrahedral shape,but
SF4 does not have tetrahedral shape because it have sp3d hyberdisation.
Thus it shows trigonal bipyramidal shape. Hence the correct answer is (iii)
Which of the following are peroxoacids of sulphur?
A. H2SO5 and H2S2O8
B. H2SO5 and H2S2O7
C. H2S2O7 and H2S2O8
D. H2S2O6 and H2S2O7
peroxides are the compounds which consist of one O-O bond.
Therefore peroxides of sulphur must contain one O-O bond. Therefore it can be clearly seen from the structure of H2SO5 and H2S2O8 .
Hence the correct option is (i).
Hot conc. H2SO4 acts as moderately strong oxidising agent. It oxidises both metals and nonmetals. Which of the following element is oxidised by conc. H2SO4 into two gaseous products?
A. Cu
B. S
C. C
D. Zn
H2SO4H2O + SO2
C + 2O2CO2
And the net reaction is obtained by multiplying reaction 1 by 2.
Addition of reaction 1 and reaction 2
C + 2H2SO4CO2 + 2SO2 + 2H2O
The gaseous product formed during the oxidation of carbon by H2SO4 are:
CO2 AND SO2.
Hence the correct option is (iii)
A black compound of manganese reacts with a halogen acid to give greenish yellow gas. When excess of this gas reacts with NH3 an unstable trihalide is formed. In this process the oxidation state of nitrogen changes from _________.
A. – 3 to +3
B. – 3 to 0
C. – 3 to +5
D. 0 to – 3
when a black compound of manganese reacts with a halogen the following reaction takes place:
MnO2 + 4HCl MnCl2 + 2H2O + Cl
A greenish yellow gas is produced, it means that chlorine is liberated during the reaction
When excess of Cl2 reacts with ammonia:
NH3 + 2Cl2NCl3 + 3HCl
Oxidation state of nitrogen in NH3 can be calculated by
Let the oxidation state of N is x.
X + 3*(+1) = 0, x = -3
Oxidation state of NCl3 can be calculated by
X + 3*(-1) = 0, x = +3
Therefore oxidation state of nitrogen varies from -3 to +3.
Hence the correct option is (i).
In the preparation of compounds of Xe, Bartlett had taken O2+Pt F6– as a base compound. This is because
A. both O2 and Xe have same size.
B. both O2 and Xe have same electron gain enthalpy.
C. both O2 and Xe have almost same ionisation enthalpy.
D. bothXe and O2 are gases.
Neil Bartlett noticed that PtF6 is a powerful oxidizing agent which combines with O2 to form red ionic compound.
O2 + PtF6[PtF6]-
As the first ionization enthalpy of Xe gas is 1170KJ/MOL and that of oxygen is 1175KJ/MOL
Both have almost same value of ionization enthalpy. Diameter of O2 and Xe are almost similar (4A’). Hence the correct option is (iii).
In solid state PCl5 is a _________.
A. covalent solid
B. octahedral structure
C. ionic solid with [PCl6]+ octahedral and [PCl4]–tetrahedra
D. ionic solid with [PCl4]+ tetrahedral and [PCl6]–octahedral
in solid state, PCl5 exists as ionic solid [PCl4]+[PCl6]- in which cation is tetrahedral and anion is octahedral.
Hence the correct option is (iv)
Reduction potentials of some ions are given below. Arrange them in decreasing order of oxidising power.
A. ClO4–→ IO4–→ BrO4–
B. IO4–→ BrO4–→ ClO4–
C. BrO4–→ IO4–→ ClO4–
D. BrO4–→ ClO4–→ IO4–
REDUCTION POTENIAL: reduction potential is a measure of the ease with which a molecule will accept electrons.
OXIDISING POWER: it is the ability to gain electrons.
Therefore oxidizing power is directly proportional to reduction potential.
Greater is the reduction potential, more will be its oxidizing power.
Hence the order is BrO4–> IO4–>ClO4
Thus the correct option is (iii).
Which of the following is isoelectronic pair?
A. ICl2, ClO2
B. BrO2– , BrF2+
C. ClO2, BrF
D. CN–, O3
ISOELECTRONIC SPECIES: the ions or elements which have same number of electrons are called isoelectronic species.
Number of electrons in the given species;
ICl2 : 53 + 2*17 = 87
ClO2 ; 17 + 16 = 33
Therefore number of electrons is not same. Hence it cannot be isoelectronic pair.
BrO2 : 35 + 2*8 + 1 = 52
BrF2: 35 + 9*2 -1 = 52
Therefore number of electrons is same. Hence it is a isoelectronic pair.
ClO2 : 17 + 16 = 33
BrF : 35 + 9 = 44
Therefore number of electrons is not same. Hence it cannot be isoelectronic pair.
CN- : 6+7+1 = 14
O3 : 8*3 = 24
Therefore number of electrons is not same. Hence it cannot be isoelectronic pair.
Hence the correct option is (ii).
If chlorine gas is passed through hot NaOH solution, two changes are observed in the oxidation number of chlorine during the reaction. These are ________ and _________.
A. 0 to +5
B. 0 to +3
C. 0 to –1
D. 0 to +1
6NaOH + 3Cl2 5NaCl + NaClO3 +H2O
Let x be the oxidation state of chlorine.
Oxidation state of Cl is -1 ( x + 1 =0, x= -1)
Oxidation state of chlorine in NaClO3 is +5 ( x + 3*(-2) +1 = 0, x= 5)
Hence the correct options are (i) and (iii)
Which of the following options are not in accordance with the property mentioned against them?
A. F2> Cl2> Br2> I2Oxidising power.
B. MI <MBr<MCl< MF Ionic character of metal halide.
C. F2> Cl2> Br2> I2 Bond dissociation enthalpy.
D. HI <HBr<HCl< HF Hydrogen-halogen bond strength.
I2 has more oxidizing power than halogen atoms because of large size of iodine it can easily accommodate electrons. Down the group size of the atom increases and oxidizing power also increases. therefore the order is F2< Cl2< Br2< I2
IONIC CHARACTER: the bond in which large electronegativity difference exists between two atoms.
Ionic character increases with increase in electronegativity of halogens
Therefore the order is MI <MBr<MCl< MF
BOND DISSOCIATION ENTHALPY: the amount of energy required to break the bond
As the bond length increases, bond dissociation enthalpy decreases.
More amount of energy is required to break the bond of small length. Bomd length of F-F is small hence it requires more energy to dissociate than Cl-Cl, Br-Br, I-I.
Hence the order of bond dissociation enthalpy is:
F2> Cl2> Br2> I2
Therefore bond dissociation enthalpy also increases.
Hence the correct options are (ii)and(iii)
Which of the following is correct for P4 molecule of white phosphorus?
A. It has 6 lone pairs of electrons.
B. It has six P–P single bonds.
C. It has three P–P single bonds.
D. It has four lone pairs of electrons.
it has four lone pair of electrons present at P atom.
Which of the following statements are correct?
A. Among halogens, radius ratio between iodine and fluorine is maximum.
B. Leaving F—F bond, all halogens have weaker X—X bond than X—X' bond in interhalogens.
C. Among interhalogen compounds maximum number of atoms are present in iodine fluoride.
D. Interhalogen compounds are more reactive than halogen compounds.
among halogens, the radius ratio between iodine and fluorine is maximum because iodine have maximum radius while fluorine have minimum radius.
And due to highest radius ratio rule maximum numbers of atoms are present in iodine fluoride.
Interhalogen compound are more reactive than halogen compounds because bond between them is easy to break while the bond between X-X is very strong and cannot be dissociated easily. Hence (ii) is incorrect
Hence the correct options are (i), (iii), (iv)
Which of the following statements are correct for SO2 gas?
A. It acts as bleaching agent in moist conditions.
B. It’s molecule has linear geometry.
C. It’s dilute solution is used as disinfectant.
D. It can be prepared by the reaction of dilute H2SO4 with metal sulphide.
sulphur dioxide act as bleaching agent in moist conditions because of reducing nature of SO2
SO2 + 2H2O H2SO4 + 2H
COLOURED SUBSTANCE + H = COLOURLESS SUBSTANCE
Its dilute solution is also used as disinfectant.
It does not have linear shape. It has trigonal planar geometry and bent shape.
Hence the correct options are (i)and(iii)
Which of the following statements are correct?
A. All the three N—O bond lengths in HNO3 are equal.
B. All P—Cl bond lengths in PCl5 molecule in gaseous state are equal.
C. P4 molecule in white phohsphorushave angular strain therefore white phosphorus is very reactive.
D. PCl is ionic in solid state in which cation is tetrahedral and anion is octahedral.
1. All the three N—O bond lengths in HNO3 are not equal. Double bonds are generally smaller in size than single bond.
2. All P—Cl bond lengths in PCl5 molecule in gaseous state are not equal. Axial bonds are larger than equatorial bonds.
3. ) P4 molecule in white phosphorous have angular strain therefore white phosphorus is very reactive.
4.) PCl is ionic in solid state in which cation is tetrahedral and anion is octahedral.
Cation [PCl4]+
Anion [PCl6]-
Which of the following orders are correct as per the properties mentioned against each?
A. As2O3< SiO2< P2O3< SO2 Acid strength.
B. AsH3< PH3< NH3 Enthalpy of vapourisation.
C. S < O <Cl< F More negative electron gain enthalpy.
D. H2O > H2S > H2Se > H2Te Thermal stability.
As2O3< SiO2< P2O3< SO2 Acid strength
ACIDIC STRENGTH: acidic strength cab be described as the tendency of an acid to give proton to the solution.
Acidic strength of oxides decreases down the group and increases along period from left to right.
H2O > H2S > H2Se > H2Te in order of Thermal stability.
As the size of the bond length increases, more easily it can be dissociated and become less stable. Down the group atomic size increases and thermal stability decreases.
(ii) and (iii) are incorrect because in (ii) order of enthalpy of vapourisation is reverse
As size of N is smaller than P, therefore it is difficult to break the bond of NH3 than PH3 and AsH3. So the order of enthalpy of vapourisation should be AsH3> PH3> NH3 .
In (iii) electron gain enthalpy of fluorine is less because of small 2p orbital.
Hence the correct answer is (i) and (iii)
Which of the following statements are correct?
A. S–S bond is present in H2S2O6.
B. In peroxosulphuric acid (H2SO5) sulphur is in +6 oxidation state.
C. Iron powder along with Al2O3 and K2O is used as a catalyst in the preparation of NH3 by Haber’s process.
D. Change in enthalpy is positive for the preparation of SO3 by catalytic oxidation of SO2.
(i) S–S bond is present in H2S2O6.
Therefore it can be clearly seen from the figure that there a bond between S-S.
(ii) In peroxosulphuric acid (H2SO5) sulphur is in +6 oxidation state.
Therefore the oxidation of S is +6 . to calculate the oxidation state of S. first consider it x
+1 + (-2) + x + (-2) + (-2) + (-1 + (-1) + 1 = 0
X = 6
(iii) In Haber’s process Fe and Mo is used as catalyst
(iv) Change in enthalpy is negative for the preparation of SO3 by catalytic oxidation. The creation of sulphur dioxide is exothermic reaction.
Hence the correct options are (i) and (ii)
In which of the following reactions conc. H2SO4 is used as an oxidising reagent?
A. CaF2 + H2SO4→ CaSO4 + 2HF
B. 2HI + H2SO4→ I2 + SO2 + 2H2O
C. Cu + 2H2SO4→ CuSO4 + SO2 + 2H2O
D. NaCl + H2SO4→ NaHSO4 + HCl
An oxidizing agent reduces itself and oxidation state of central atom decreases.
2HI + H2SO4→ I2 + SO2 + 2H2O
Oxidation state of central atoms:
HI = -1
H2SO4 = -6
I2= 0
SO2 = -4
Cu + 2H2SO4→ CuSO4 + SO2 + 2H2O
Oxidation state of central atom:
Cu = 0
H2SO4 = -6
CuSO4 = +2
SO2 = +4
Hence the correct options are (ii) and (iii).
Which of the following statements are true?
A. Only type of interactions between particles of noble gases are due to weak dispersion forces.
B. Ionisation enthalpy of molecular oxygen is very close to that of xenon.
C. Hydrolysis of XeF6 is a redox reaction.
D. Xenon fluorides are not reactive.
1. Weak dispersion forces are present between noble gases and theses are also known as vanderwall forces of attraction. Hence (i) is true.
2. First ionization enthalpy of oxygen is 1175 KJ/ mol and first ionization enthalpy of xenon is 1170KJ/mol. Therefore there ionization enthalpies are almost same. Hence (ii) is true.
3. The oxidation state of all the elements during the hydrolysis of XeF6 remains same, therefore it is not a redox reaction. Hence (iii) is false
4. Xenon fluorides are reactive. Hence (iv) is false.
Hence the correct answer is (i) and (ii).
In the preparation of H2SO4 by Contact Process, why is SO3 not absorbed directly in water to form H2SO4?
Dissolution of SO3 in water is highly exothermic in nature. This leads to the formation of mist of tiny droplets which are highly corrosive and they can even attack the lead pipelines (lead pipelines are used to cover the tower in contact process).
Thus the acid fog which is formed by the direct reaction of water with sulphur trioxide is very difficult to condense. Therefore the following reaction takes place.
Absoption of SO3 in 98 percent of H2SO4 to form oleum
SO3 + H2SO4H2S2O7
Then dilution of oleum takes place to get H2SO4.
H2S2O7 + H2O 2H2SO4
Write a balanced chemical equation for the reaction showing catalytic oxidation of NH3 by atmospheric oxygen.
NH3 + O2 4NO + 6H2O
In this reaction Pt gauze react as a catalyst, which is added to increase the rate of reaction.
Write the structure of pyrophosphoric acid.
PH3 forms bubbles when passed slowly in water but NH3 dissolves. Explain why?
nitrogen is more electronegative than phosphorous (electro negativity decreases with increase in atomic size and size of phosphorous is larger than nitrogen.) Ammonia forms hydrogen bonding with water therefore it is highly soluble in water, but PH3 do not forms hydrogen bonding with water. Therefore it is not soluble in water and it escapes as a gas and forms bubbles.
NOTE: hydrogen bonding is the electrostatic force of attraction between hydrogen and electronegative atom which form covalent bond with hydrogen.
In PCl5, phosphorus is in sp3d hybridised state but all its five bonds are not equivalent. Justify your answer with reason.
PCl5 has trigonal bipyramidal structure. It has three equivalent equatorial bonds and two equivalent axial bonds. The size of axial bonds is greater than size of equatorial bonds to overcome repulsion, because the three equatorial bonds causes more repulsion.
Therefore two axial P-Cl bonds are longer and different from equatorial bonds.
Why is nitric oxide paramagnetic in gaseous state but the solid obtained on cooling it is diamagnetic?
paramagnetic: the species which contain unpaired electrons are known as paramagnetic.
Diamagnetic: the species which all paired electrons are called diamagnetic.
Nitric acid in gaseous state exists in monomer form. It consists of only one unpaired electron therefore it is paramagnetic in nature.
However in solid state it exists as dimer (N2O2). There is no unpaired electron in its dimer form, therefore it is diamagnetic in nature.
Give reason to explain why ClF3 exists but FCl3 does not exist.
Chlorine has vacant d orbitals hence it can show an oxidation state of +3. Fluorine has no d orbitals, it cannot show positive oxidation state. Fluorine shows only -1 oxidation state. Therefore FCl3 does not exists.
This can also be explained by the concept of atomic size. Size of chlorine atom is greater due to smaller size of fluorine atom it cannot accommodate three large chlorine atoms.
Hence ClF3 exists but FCl3 does not exist.
Out of H2O and H2S, which one has higher bond angle and why?
H2O has higher bond angle than H2S because as we move from oxygen to sulphur the size of the central atom increases and electronegativity decreases due to which bond pair goes away from central atom which result in decrease in bond pair bond pair repulsion and hence bond angle decreases.
SF6 is known but SCl6 is not. Why?
fluorine is strongest oxidizing agent and it can oxidize sulphur to its maximum oxidation state +6 to form SF6. Chlorine is not good oxidizing agent, it cannot oxidize sulphur to its maximum oxidation state. Chlorine can oxidize sulphur to only +4 oxidation state. Hence it can form SCl4 but not SCl6.
On reaction with Cl2, phosphorus forms two types of halides ‘A’ and ‘B’. Halide A is yellowish-white powder but halide ‘B’ is colourless oily liquid. Identify A and B and write the formulas of their hydrolysis products.
when chlorine first react with phosphorous and heated in a retort, it will form phosphorous trichloride PCl3. PCl3 further react with chlorine to form PCl5.
Halide A is PCl5 because it is yellowish white powder
Halide B is PCl3 because it is colourless oily liquid.
PCl3 + 3H2O H3PO3 + 3HCl
PCl5 undergoes a violent hydrolysis
PCl5 + H2O POCl3 + 2HCl
PCl5 + 4H2O H3PO4 + 5HCl
In the ring test of NO3– ion, Fe2+ ion reduces nitrate ion to nitric oxide, which
combines with Fe2+ (aq) ion to form brown complex. Write the reactions involved in the formation of brown ring.
+ 3Fe2+ + 4H+ NO + 3Fe2+ 2H2O
[Fe(H2O)6]SO4 + NO [Fe(H2O)5NO]SO4
Thus the complex formed is brown in colour.
Explain why the stability of oxoacids of chlorine increases in the order given below:
HClO< HClO2< HClO3< HClO4
As the electronegativity of halogen decreases, the tendency of XO3 group ( X = halogens) to withdraw electrons of the O-H bond towards itself decreases and hence the acid strength of the perhalic acid decreases.
Therefore the order of stability is HClO< HClO2< HClO3< HClO4
Explain why ozone is thermodynamically less stable than oxygen.
ozone is thermodynamically less stable because it decompose into oxygen and this decomposition leads result in the liberation of heat, so its entropy is positive and free energy is negative. High concentration of oxygen is dangerously explosive.
P4O6 reacts with water according to equation P4O6 + 6H2O → 4H3PO3.
Calculate the volume of 0.1 M NaOH solution required to neutralise the acid formed by dissolving 1.1 g of P4O6 in H2O.
P4O6 + 6H2O 4H3PO3
4H3PO3 + 8NaOH Na2HPO3 + 8H20
NET REACTION:
P4O6 + 8NaOH 4Na2HPO3 + 2H2O
Moles of P4O6 = = 0.5
Acid formed by one mole of P4o6 requires = 8 mol
Acid formed by 0.005 mol of NaOH is present in 100mL solution
0.04 of NaOH is present in solution = *0.04 = 400mL
White phosphorus reacts with chlorine and the product hydrolyses in the presence of water. Calculate the mass of HCl obtained by the hydrolysis of the product formed by the reaction of 62 g of white phosphorus with chlorine in the presence of water.
when white phosphorous react with chlorine:
P4 + 6Cl2 4PCl3
PCl3 + 3H2O H3PO3 + 4HCl ]*4
NET REACTION: BEFORE ADDING SECOND REACTION TO FIRST, MULTIPLY IT BY FOUR
P4 +6Cl2 +12H2O 4H3PO3 +12HCl
Moles of white P= = 0.5mol
1mol of white P4 produce HCl = 12mol
0.5 mol of white P4 will produce HCl = 12*0.8 = 6mol
Mass of HCl = 6*36.5 = 219.0g
Name three oxoacids of nitrogen. Write the disproportionation reaction of that oxoacid of nitrogen in which nitrogen is in +3 oxidation state.
there are three oxoacids of nitrogen.
1. Nitric acid(HNO3)
2. Nitrous acid (HNO2)
3. Hyponitrous acid (H2N2O1)
+ 3 oxidation is shown by HNO2, Therefore it undergoes disproportion reaction,
To calculate oxidation state, consider the oxidation state of N is x.
3HNO2 HNO3 + 2NO +H2O
Oxidation state of nitrogen in HNO2 is +3
X + (+1) +2*(-2) = 0, x= +3
Oxidation state of nitrogen in HNO3 is +5
X + (+1) + 3*(-2) = 0, x= 5
Oxidation state of nitrogen in NO is +2
X + (-2) = 0, x =2
Therefore +3 oxidation state changes to +5 and +2 oxidation states
Nitric acid forms an oxide of nitrogen on reaction with P4O10. Write the reaction involved. Also write the resonating structures of the oxide of nitrogen formed.
P4O10 + 4HNO3 4HPO3 + 2N2O5
White phosphorous is very reactive as compared to red phosphorous due to angular strain in white phosphorous.
Resonance structure of N2O5
Phosphorus has three allotropic forms — (i) white phosphorus (ii) red phosphorus and (iii) black phosphorus. Write the difference between white and red phosphorus on the basis of their structure and reactivity.
Give an example to show the effect of concentration of nitric acid on theformation of oxidation product.
dilute and concentrated nitric acid give different oxidation product
EXAMPLES ARE:
4Zn +10HNO3(dil) 4Zn(NO3)2 + NH4NO3 + 3H2O
4Zn +10HNO3(dil) 4Zn(NO3)2 + N2O + 5H2O
4Zn +4HNO3(conc.) Zn(NO3)2 + NO2 + 2H2O
PCl5 reacts with finely divided silver on heating and a white silver salt is obtained, which dissolves on adding excess aqueous NH3 solution. Write the reactions involved to explain what happens.
PCl5 reacts with silver to form white silver salt(AgCl). Which than dissolves on adding excess aqueous NH3 to form soluble complex
PCl5 + 2Ag 2AgCl(white ppt.) + PCl3
Agcl + 2NH3(aq) [Ag(NH3)]+Cl-
Phosphorus forms a number of oxoacids. Out of these oxoacidsphosphinicacid has strong reducing property. Write its structure and also write a reaction showing its reducing behaviour.
REACTIONS SHOWING REDUCING BEHAVIOR:
4AgNO3 + H3PO2 + 2H2O 4Ag + H3PO4 + 4HNO3
2HgCl2 + H3PO2 + 2H2O 2Hg + H3PO4 + 4HCl
It shows reducing behavior due to possession of P-H bond
Match the compounds given in Column I with the hybridisation and shape given in Column II and mark the correct option.
Code :
A. A (1) B (3) C (4) D (2)
B. A (1) B (2) C (4) D (3)
C. A (4) B (3) C (1) D (2)
D. A (4) B (1) C (2) D (3)
Match the formulas of oxides given in Column I with the type of oxide given in Column II and mark the correct option.
Code :
A. A (1) B (2) C (3) D (4)
B. A (4) B (1) C (2) D (3)
C. A (3) B (2) C (4) D (1)
D. A (4) B (3) C (1) D (2)
Mn2O7 on dissolution in water produce acidic oxide
Bi2O3 on dissolution in water produce basic oxide
Pb3O4 is mixed oxide of PbO.Pb2O3
N2O is neutral oxide, do not have any charge
Match the items of Columns I and II and mark the correct option.
Code :
A. A (4) B (3) C (1) D (2)
B. A (3) B (4) C (1) D (2)
C. A (4) B (1) C (2) D (3)
D. A (2) B (1) C (3) D (4)
1. H2SO4 is used in lead storage batteries
2. CCl3NO2 is known as tear gas
3. Cl2 have highest electron gain enthalpy because it need only one electron to compete octect. thus to attain stable configuration .
4. Oxygen family is known as chalcogen therefore sulphur is also chalcogen
Match the species given in Column I with the shape given in Column II and mark the correct option.
Code :
A. A (3) B (2) C (1) D (4)
B. A (3) B (4) C (2) D (1)
C. A (1) B (2) C (3) D (4)
D. A (1) B (4) C (3) D (2)
Match the items of Columns I and II and mark the correct option.
Code :
A. A (1) B (4) C (2) D (3)
B. A (1) B (2) C (3) D (4)
C. A (2) B (1) C (4) D (3)
D. A (1) B (3) C (2) D (4)
1. Partial hydrolysis of XeF6 does not change oxidation state of central atom
XeF6 +2H2O XeO3 + 6HF
IN THIS REACTION OXIDATION STATE REMAINS SAME.
2. He is used in modern diving apparatus.
3. Ar is used to provide inert atmosphere for filling electrical bulbs
4. In XeF4 central atom is in sp3d2hybridisation
Note : In the following questions a statement of assertion followed by a statement of reason is given. Choose the correct answer out of the following choices.
A. Both assertion and reason are correct statements, and reason is the correct explanation of the assertion.
B. Both assertion and reason are correct statements, but reason is not the correct explanation of the assertion.
C. Assertion is correct, but reason is wrong statement.
D. Assertion is wrong but reason is correct statement.
E. Both assertion and reason are wrong statements.
Assertion : N2 is less reactive than P4.
Reason : Nitrogen has more electron gain enthalpy than phosphorus.
electron gain enthalpy of nitrogen is less than phosphorous. N2 is less reactive than P4 due to high bond dissociation enthalpy. More energy is required to break the bond N-N, therefore it is difficult to break the bond, while less amount of enegy is required to break the bond of phosphorous, therefore it is easy to break the bonds.
Hence N2is less reactive than P4.
Note : In the following questions a statement of assertion followed by a statement of reason is given. Choose the correct answer out of the following choices.
A. Both assertion and reason are correct statements, and reason is the correct explanation of the assertion.
B. Both assertion and reason are correct statements, but reason is not the correct explanation of the assertion.
C. Assertion is correct, but reason is wrong statement.
D. Assertion is wrong but reason is correct statement.
E. Both assertion and reason are wrong statements.
Assertion : HNO3 makes iron passive.
Reason : HNO3 forms a protective layer of ferric nitrate on the surface of iron.
HNO3 makes the iron passive because it form thin layer of oxide on the surface of iron.
Note : In the following questions a statement of assertion followed by a statement of reason is given. Choose the correct answer out of the following choices.
A. Both assertion and reason are correct statements, and reason is the correct explanation of the assertion.
B. Both assertion and reason are correct statements, but reason is not the correct explanation of the assertion.
C. Assertion is correct, but reason is wrong statement.
D. Assertion is wrong but reason is correct statement.
E. Both assertion and reason are wrong statements.
Assertion : HI cannot be prepared by the reaction of KI with concentrated H2SO4
Reason : HI has lowest H–X bond strength among halogen acids.
correct reason for assertion is
HI cannot be prepared by the reaction of KI with concentrated H2SO4 because H2SO4 is strong oxidizing agent. It will convert HI to I2.
Note : In the following questions a statement of assertion followed by a statement of reason is given. Choose the correct answer out of the following choices.
A. Both assertion and reason are correct statements, and reason is the correct explanation of the assertion.
B. Both assertion and reason are correct statements, but reason is not the correct explanation of the assertion.
C. Assertion is correct, but reason is wrong statement.
D. Assertion is wrong but reason is correct statement.
E. Both assertion and reason are wrong statements.
Assertion : Both rhombic and monoclinicsulphur exist as S8 but oxygen exists as O2.
Reason : Oxygen forms pp – pp multiple bond due to small size and small bond length but pp– pp bonding is not possible in sulphur.
Both rhombic and monoclinicsulphur exist as S8 but oxygen exists as O2 because Oxygen forms pp – pp multiple bond due to small size and small bond length but pp– pp bonding is not possible in sulphur.
Note : In the following questions a statement of assertion followed by a statement of reason is given. Choose the correct answer out of the following choices.
A. Both assertion and reason are correct statements, and reason is the correct explanation of the assertion.
B. Both assertion and reason are correct statements, but reason is not the correct explanation of the assertion.
C. Assertion is correct, but reason is wrong statement.
D. Assertion is wrong but reason is correct statement.
E. Both assertion and reason are wrong statements.
Assertion :NaCl reacts with concentrated H2SO4 to give colourless fumeswith pungent smell. But on adding MnO2 the fumes becomegreenish yellow.
Reason : MnO2oxidisesHCl to chlorine gas which is greenish yellow.
NaCl reacts with concentrated H2SO4 to give colourless fumes with pungent smell. But on adding MnO2 the fumes become greenish because MnO2oxidisesHCl to chlorine gas which is greenish yellow
Note : In the following questions a statement of assertion followed by a statement of reason is given. Choose the correct answer out of the following choices.
A. Both assertion and reason are correct statements, and reason is the correct explanation of the assertion.
B. Both assertion and reason are correct statements, but reason is not the correct explanation of the assertion.
C. Assertion is correct, but reason is wrong statement.
D. Assertion is wrong but reason is correct statement.
E. Both assertion and reason are wrong statements.
Assertion : SF6 cannot be hydrolysed but SF4 can be.
Reason : Six F atoms in SF6 prevent the attack of H2O on sulphuratom of SF6.
SF6 cannot be hydrolysed but SF4 can be because Six F atoms in SF6 prevent the attack of H2O on sulphur atom of SF6.
An amorphous solid “A” burns in air to form a gas “B” which turns lime water milky. The gas is also produced as a by-product during roasting of sulphideore. This gas decolourises acidified aqueous KMnO4 solution and reduces Fe3+ to Fe2+. Identify the solid “A” and the gas “B” and write the reactions involved.
the amorphous solid A is sulphur (s8) while gas b is sulphur dioxide.
S8 + 8O28SO2
The gas SO2 turns the lime water milky.
Roasting of sulphide ore :
2ZnS + 3o22ZnO + 2SO2
Hence sulphur dioxide is produced during the roasting of sulphide ore.
The gas B decolourise the acidified KMnO4 solution and reduces Fe3+ to Fe2+
2KMnO4 + 5SO2 +2H2O K2SO4 + 2MnSO4 + 2H2SO4
Fe(SO4)3 + SO2 + 2H2O 2FeSO4 + 2H2SO4
On heating lead (II) nitrate gives a brown gas “A”. The gas “A” on cooling changes to colourless solid “B”. Solid “B” on heating with NO changes to a blue solid ‘C’. Identify ‘A’, ‘B’ and ‘C’ and also write reactions involved and draw the structures of ‘B’ and ‘C’.
A is NO2 (Nitrogen dioxide)
B is N2O4 (solid colourless)
C is N2O3 (dinitrogen trioxide)
On heating lead nitrate(II) a brown gas A is produced
2Pb(NO3)2 2PbO + 4NO2 + O2
2NO2 N2O4
2NO + N2O4 2N2O3
STRUCTURE OF N2O4
STRUCTURE OF N2O3
On heating compound (A) gives a gas (B) which is a constituent of air. This gas when treated with 3 mol of hydrogen (H2) in the presence of a catalyst gives another gas (C) which is basic in nature. Gas C on further oxidation in moist condition gives a compound (D) which is a part of acid rain. Identify compounds (A) to (D) and also give necessary equations of all the steps involved.
A = NH4NO2
B = N2
C= NH3
D= HNO3
On heating compound A gives compound B
N2 is a constituent of air
NH4NO2 N2 + 2H2O
When N2 is treated with 3mol of hydrogen in the presence of catalyst gives another gas (c)
N2 + 3H2 2NH3
The gas C is basic in nature due to presence of lone pair on nitrogen atom .
Gas C on further oxidation in moist condition gives compound D (HNO3)
HNO3 is present in acid rain.
4NH3 + 5O24NO + 6H2O
2NO + O22NO2
3NO2 + H2O 2HNO3 + NO