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11. SOME IMPORTANT CHEMICAL REACTIONS

There are some chemical reactions, which a student should remember in order to solve problems on stoichiometry. These are categorized are

11.1COMBINATION OF ELEMENTS WITH OXYGEN               
                                           
  
(i)  Heating mercury at its boiling point in air 2Hg + O2  → 2HgO ( red mercuric oxide )                         

(ii)  Heating magnesium in air. It forms mostly magnesium oxide and some magnesium nitride                    

2Mg + O2  → 2MgO    ,  3Mg + N2  → Mg3N2                                                                        

(iii)   Calcium behaves similarly  
2Ca + O2  → 2CaO  ,  3Ca + N2  → Ca3N2                                            

(iv)   Silver does not combine with oxygen, as Ag2O is unstable to heat.                                                         
(v)    Many non-metals burn in O2 forming their respective oxides.

 2H2 + O2  → 2H2O   ;      S + O2  → SO2 
C + O2  → CO2          ;        P4 + 5O2  → P4O10
Some Important Chemical Reactions - Redox Reactions | Physical Chemistry                                                                                                                            

Cl, Br2 and I2 do not directly combine with oxygen.

11.2    ACTION OF HEAT ON CERTAIN OXIDES :

 (i)    Mercuric oxide and silver oxide are unstable to heat and decompose readily.                         

Some Important Chemical Reactions - Redox Reactions | Physical Chemistry                     
(ii)    Various higher oxides, dioxides, mixed oxides and peroxides are decomposed to oxygen and a lower oxide.       
2Pb3O4  → 6PbO + O2  ;   2PbO2  → 2PbO + O2

3MnO2  → Mn3O4 + O2    ;  2BaO2  → 2BaO + O2

11.3    COMPOUNDS RICH IN OXYGEN DECOMPOSE TO GIVE OXYGEN

(i)  2KNO3  → 2KNO + O2↑                                                                                                                             

(ii)    2KMnO → K2MnO4 + MnO2 + O2↑                     
( purple )  ( green )   ( black )

(iii)   4K2Cr2O7  →4K2CrO4 + 2Cr2O3 + 3O2

(orange-red)   (yellow) (green)                                                                                                            

Potassium chlorate when heated just above its melting point decomposes into potassium perchlorate and potassium chloride. This reaction is called disproportionation or auto-oxidation and auto-reduction. On heating further, KClO4 decomposes to KCl and oxygen.                                                                                    

(iv)   4KClO3  →3KClO+ KCl                                                                                                                                 

(ii)    KClO4  → KCl + 2O2

11.4    ACTION OF HEAT ON NITRATES

Generally heavy metal nitrates decompose to metal oxide, reddish brown nitrogen dioxide gas and oxygen.

 1. Lead nitrate decomposes to PbO, NO2 , O2
2Pb(NO3)2 →2PbO + 4NO2
Litharge or lead (II) oxide (red when hot and yellow when cold )

 2. Cupric nitrate decomposes to CuO,  NO2 and O2
2Cu(NO3)2 →2CuO + 4NO2 + O2
(green)           (black)

 3. Zinc nitrate decomposes ZnO, NO2 and O2
(zinc oxide, yellow when hot and white when cold )
Knowing the colors of some oxides will be useful in qualitative analysis.

4. Nitrates of mercury and silver, whose oxides are unstable, decompose into the metal, NO2and O2.      Hg(NO3)2  → Hg + 2NO2 + O2

 2AgNO3 →2Ag + 2NO2 +O2

5. Alkali metal nitrates decompose to give the metal nitrite and O2( No reddish brown NO2 gas)

 2KNO3 →2KNO+ O2
2NaNO3 →2NaNO2 + O2

6. Ammonium nitrate on heating leaves no residue and forms nitrous oxide and steam.

NH4NO3 →N2O + 2H2O

11.5    ACTION OF HEAT ON AMMONIUM COMPOUNDS

Generally an ammonium compound decomposes into ammonia and an acid or acidic oxide if the acids is unstable to heat .

  1. NH4Cl  → NH3 + HCl

  2. (NH4)2SO4  → 2NH3+ H2SO4

  3.  (NH4)3PO4  → 3NH3+ H3PO4

  4. (NH4)2CO3  → 2NH3+ CO+H2O

  5. Ammonium compounds which do not give ammonia on heating are ammonium nitrate, ammonium nitrite and ammonium dichromate.

NH4NO3→ N2O + 2H2O

NH4NO2 →N2 + 2H2O

(NH4)2Cr2O7 →N2 + 4H2O + Cr2O3  (green fluffy chromic oxide )

11.6    ACTION OF HEAT ON METALLIC CARBONATES

(I)Generally metallic carbonates decompose to give metal oxide and CO2.

CaCO3 →9000C →CaO +CO2↑  

MgCO3 →MgO +CO2↑  

CuCO3→CuO+CO↑  

(pale green)(black)

PbCO3 →PbO(yellow) + CO2

ZnCO3 →ZnO +CO↑  

(II)   Carbonates of strongly electropositive metals ( alkali metals except lithium ) do not decompose on heating.

(III) Silver carbonate decomposes to give the metal, CO2 and O2

2Ag2CO3 →4Ag + 2CO2 + O2

(IV) Ammonium carbonate ( smelling salt ) decomposes to give NH3, H2O and CO2. All the products are in gaseous phase and there is no residue left.

(NH4)2CO3→ 2NH3 + H2O + CO2

11.7    ACTION OF HEAT ON METALLIC BICARBONATES

Only NaHCO3 and KHCO3 are solids; others are known in solution. All Bicarbonates decompose to give the metal carbonate, H2O and CO2.

2NaHCO3 →Na2CO3 + H2O + CO↑  

Ca(HCO3)2 →CaCO3 + H2O + CO↑  

Mg(HCO3)2 →MgCO3 + H2O + CO↑  

11.8    ACTION OF HEAT ON CERTAIN HYDRATED CHLORIDES

        Hydrated halides on heating are converted to oxides, H2O and halo acids.

  1. MgCl2.6H2O does not get completely dehydrated because MgCl2 is hydrolysed by water to give basic MgCl2.
    MgCl2.6H2O  → Mg(OH)Cl + 5H2O + HCl

  2. Al2Cl6.12H2O  → Al2O3 + 6HCl + 9H2O

  3. SnCl2.2H2O undergoes hydrolysis to form basic chloride

SnCl2.2H2O →Sn(OH)Cl + H2O + HCl

  1. On heating, certain halides of metal ions in higher oxidation state changes to halides of lower oxidation state.

2FeCl3 →2FeCl+ Cl2

2CuCl2 →Cu2Cl2 + Cl2

11.9    ACTION OF HEAT ON SOME OTHER COMPOUNDS

  • When sodium sulphite is heated, it undergoes disproportionation reaction.

             4Na2SO3 →3Na2SO+ Na2S

  • Sodium thiosulphate Na2S2O3.5H2O loses water of hydration and becomes anhydrous salt, which on further heating gives a mixture of sodium sulphate, sodium sulphide and sulphur.

            Na2S2O3.5H2O →Na2S2O3 + 5H2O

            4Na2S2O→ 3Na2SO4 + Na2S + 4S

  • When hydrated copper sulphate ( blue vitriol ) is heated, CuO and SO2 are formed.

Some Important Chemical Reactions - Redox Reactions | Physical Chemistry
Some Important Chemical Reactions - Redox Reactions | Physical Chemistry
Some Important Chemical Reactions - Redox Reactions | Physical Chemistry
Some Important Chemical Reactions - Redox Reactions | Physical Chemistry

  • Gypsum CaSO4.2H2O, when heated to 120-1300 C forms a hemihydrate called Plaster Of Paris.

            CaSO4.2H2O →CaSO4.1/2H2O + 3/2H2O

If heated above 2000C, it forms anhydrous calcium sulphate which does not set with water.

  • Green vitriol FeSO4.7H2O, when heated forms Fe2O3 , SO2 , SO3 and H2O

FeSO4.7H2O→ Fe2O3 +SO2 + SO3 + 14H2O

 

  • Some Important Chemical Reactions - Redox Reactions | Physical Chemistry

 

        Some Important Chemical Reactions - Redox Reactions | Physical Chemistry

  • Some Important Chemical Reactions - Redox Reactions | Physical Chemistry

  • Some Important Chemical Reactions - Redox Reactions | Physical Chemistry

  • Some Important Chemical Reactions - Redox Reactions | Physical Chemistry

11.10 ACID-BASE REACTIONS

  • A strong acid liberates a relatively weaker acid from its salt. The common strong acids are perchloric acid, sulphuric acid, hydrochloric acid and nitric acid. The weaker acids are carbonic acid, sulphurous acid, hydrocyanic acid and most of the organic acids. Thus conc. sulphuric acid displaces most other acids from their salts.

KCl + H2SO4 →KHSO4 + HCl

KNO3 + H2SO4 →KHSO4 + HNO3

Ca3(PO4)2 + 3H2SO4 →3CaSO4 + 2H3PO4

CH3CO2Na + HCl →CH3CO2H + NaCl

  • Al most all the acids displace carbonic acid from carbonates and bicarbonates. Since carbonic acid is unstable , it decomposes liberating CO2 with effervescence ( Test For Acids ).

Na2CO3 + 2HCl →2NaCl + H2O + CO↑  

Na2CO3 + H2SO4 →Na2SO4 + H2O + CO↑  

KHCO3 + HNO3 →KNO3 + H2O + CO↑  

  • A strong base can displace a weak base from a salt of strong acid and weak base.

+ NaOH →NaCl + NH4OH

  • A salt of strong acid and strong base do not react with any acid or base.

11.11 SOME OTHER USEFUL REACTIONS

  • O3 + 2KI + H2O  →2KOH + I2+ O2

  • BaCO3 + 2HCl  → BaCl2 + CO2 + H2O

  • BaCl2 + H2CrO4  → BaCrO4 + 2HCl

  • 2BaCrO+ 6KI + 8H2SO4  →3I+ 2BaSO4 + 3K2SO4 + Cr2(SO4)3 + 8H2O

  • 2Cu SO+ 4KI  → Cu2I2 +I2 + 2K2SO4

  • 2MnO4- + 5C2O42- + 16H+  → 2Mn+2 + 10CO2 + 8H2O

  • 2KMnO4+ 10FeSO4 + 4H2SO4  → 2MnSO4 + 5Fe2(SO4)3 + K2SO4 + 8H2O

  • Mn3O4 + 2FeSO4 + 4H2SO4  → 3MnSO4 + Fe2(SO4)+ 4H2O

  • MnO4- + 5Fe2+ + 8H+  → Mn+2+5Fe3+ + 4H2O

  • KMnO+ 5 KI + 4H2SO4  → 3K2SO+ MnSO4 +5/2 I2 + 4H2O

  • K2Cr2O7 + 6KI + 7 H2SO4  →4 K2SO4 + Cr2(SO4)3 + 3I2 + 7H2O

11.12 HARDNESS OF WATER

The hardness of water is due to the presence of bicarbonates, chlorides and sulphates of Ca and Mg. The temporary hardness is due to the bicarbonates and permanent hardness is due to chlorides and sulphates of Ca and Mg. The extent of hardness is known as degree of hardness defined as the number of parts by weight of CaCO3 present in one million parts by weight of water.

Hardness of water = Some Important Chemical Reactions - Redox Reactions | Physical Chemistry

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FAQs on Some Important Chemical Reactions - Redox Reactions - Physical Chemistry

1. What is a redox reaction?
Ans. A redox reaction, also known as an oxidation-reduction reaction, is a type of chemical reaction that involves the transfer of electrons between two species. In these reactions, one species undergoes oxidation (loses electrons) while another species undergoes reduction (gains electrons).
2. How do redox reactions occur?
Ans. Redox reactions occur when there is a transfer of electrons between species. This transfer can happen through various mechanisms such as the exchange of electrons directly between two species, the transfer of electrons through an intermediate molecule, or the transfer of electrons via an external circuit.
3. What are some examples of redox reactions?
Ans. Some common examples of redox reactions include the rusting of iron, combustion reactions (such as the burning of gasoline or wood), the reaction between hydrogen and oxygen to form water, and the reaction between metal and acid to produce hydrogen gas.
4. How can redox reactions be balanced?
Ans. Redox reactions can be balanced by balancing the oxidation and reduction half-reactions separately. This involves adjusting the coefficients of the reactants and products to ensure that the number of electrons gained in the reduction half-reaction equals the number of electrons lost in the oxidation half-reaction.
5. What is the importance of redox reactions?
Ans. Redox reactions play a crucial role in various biological, industrial, and environmental processes. They are involved in energy production, such as cellular respiration in organisms. Redox reactions are also important in chemical synthesis, corrosion, batteries, and many other areas of chemistry and technology.
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