NCERT Solutions Class 10th Science Chapter – 1 Chemical Reactions and Equations
| Textbook | NCERT |
| Class | 10th |
| Subject | Science |
| Chapter | 1st |
| Chapter Name | Chemical Reactions and Equations |
| Category | Class 10th Science |
| Medium | English |
| Source | Last Doubt |
| NCERT Solutions Class 10th Science Chapter – 1 Chemical Reactions and Equations Notes In This Chapter we will learn about Chemical Reaction and Equation, Reactions, Simplest Way to Write Word Equation, Balanced equation follow some importance ways, Endothermic, Exothermic, Types of Chemical Reaction and more such things for more knowledge about this Chapters read their Notes. |
NCERT Solutions Class 10th Science Chapter – 1 Chemical Reactions and Equations
Chapter – 1
Chemical Reactions and Equations
Notes
| Chemical Reaction – The process in which new substances with new properties are formed from one or more substances is called Chemical Reaction. |
| Reactants – The substances which take part in chemical reaction are called Reactants. Example – C(s) + O2 → CO2(g) In this reaction Carbon (C) and Oxygen (O) are Reactants. |
| Products – The substances which are formed in a chemical reaction are called Products. Example C(s) + O2 → CO2(g) In this Reaction Carbon Dioxide (CO2) is a Product. |
| Skeleton Equations – Skeleton Equations are usually unbalanced equation but there are few which need not to be balanced as they are already balanced. Example – |
| Skeleton Equation | Balanced Equation |
| C(s) + O2 → CO2(g) | C(s) + O2(g) → CO2(g) |
| Zn(s) + H2SO4(l) → ZnSO4 + H2(g) | Zn(s) + H2SO4(l) → ZnSO4 + H2(g) |
| S(s) + 02(g) → SO2(g) | S(s) + O2(g) → SO2(g) |
| Chemical Reaction involves – 1) Change in state 2) Change in colour 3) Change in temperature 4) Evolution of gas Examples – (i) Digestion of food (ii) Respiration (iii) Rusting of iron (iv) Burning of Magnesium ribbon (v) Formation of curd |
| Ways of Representing a Chemical Reaction (i) Word Equation = Zinc + Sulphuric Acid (Reactant) – Zinc sulphate + Hydrogen (Product) (ii) Chemical Equation = Zn + H2SO4 (Reactant) – ZnSO4 + H2 (Product) |
| Chemical Equation – A chemical reaction can be represented by chemical equation. It involves uses of symbol of elements or chemical formula of reactant and product with mention of physical state. The necessary conditions such as temperature, pressure or any catalyst should be written on arrow between reactant and products. Example – Magnesium is burnt in air to form Magnesium oxide. 2Mg + 02 → 2MgO |
| Balancing Chemical Equation – • Law of conservation of Mass – Matter can neither be created nor be destroyed in a chemical reaction. • So number of atoms of the elements involved in chemical reaction should remain same at reactant and product side. |
| Stepwise Balancing (Hit and Trial) Step 1 – Write a chemical equation and draw boxes around each formula. Fe + H₂O → Fe304 + H₂ • Do not change anything inside the box. Step 2 – Count the number of atoms of each element on both the sides of chemical equation. |
| Element | No. of atoms at reactant side | No. of atoms at product side |
| Fe | 1 | 3 |
| H | 2 | 2 |
| O | 1 | 4 |
| Step 3 – Equalise the number of atoms of element which has maximum number by putting in front of them. Fe + 4H₂0 → Fe304 + H₂ Step 4 – Try to equalize all the atoms of elements on reactant and product side by adding coefficient in front of them. 3Fe + 4H₂0 → Fe304 + 4H₂ • Now all the atoms of elements are equal on both sides. Step 5 – Write the physical states of reactants and products. 3Fe (s) + 4H20 (g) → Fe304 (s) + 4H2 (g) Solid state = (s) Liquid state = (l) Gaseous state = (g) Aqueous state = (aq) Step 6 – Write necessary conditions of temperature, pressure or catalyst on arrow above or below. |
| Types Of Chemical Reaction (1) Combination Reaction (2) Decomposition Reaction (3) Displacement Reaction (4) Double Displacement Reaction |
| 1. Combination Reactiong – The reaction in which two or more reactants combine to form a single product. Examples – (i) Burning of coal C (s) + O2 (g) → CO2 (g) (ii) Formation of water 2H2 (g) + O2 (g) → 2H2O (l) (iii) CaO (s) + H2O (l) → Ca(OH)2 (aq) Quick lime = CaO Slaked lime = Ca(OH)2 |
| Exothermic Reactions – Reaction in which heat is released along with formation of products. Examples – (i) Burning of natural gas CH4 (g) + O2 (g) → CO2 (g) + 2H2O (g) + Heat (ii) Respiration is also an exothermic reaction. C6H12O6 (aq) + 602 (g) → 6CO2 (g) + 6H2O (l) + energy |
| 2. Decomposition Reactiong – The reaction in which a compound splits into two or more simple substances is called decomposition reaction. A → B + C Types of Decomposition (i) Thermal decomposition (ii) Electrolytic decomposition (iii) photolytic decomposition The decomposition reactions are mostly endothermic in nature. Energy in the form of heat, light or electricity is generally absorbed in these reactions. |
| (i) Thermal decomposition – When decomposition is carried out by heating. Example – (i) 2FeSO4 (s) Passing Heat → Fe203 (s) + SO2 (g) + SO3 (g) Green colour (Ferrous sulphate) = FeSO4 Red-brown colour (Ferric oxide) = Fe203 (ii) CaCO3 (s) Passing Heat → CaO (s) + CO2 (g) Lime stone = CaCO3 Quick lime = CaO (iii) 2Pb(NO3)2 (s) Passing Heat → 2PbO (s) + 4NO2 (g) + 02 lead nitrate = Pb(NO3)2 lead oxide = PbO Nitogen dioxide = NO2 |
| (ii) Electrolytic Decomposition – When decomposition is carried out by passing electricity. Example – 2H2O Passing Electric current → 2H2 + O2  |
| (iii) Photolytic Decomposition – When decomposition is carried out in presence of sunlight. Example 2AgCl Passing Sunlight → 2Ag + Cl2 = Silver chloride turns grey on exposure to sunlight. 2AgBr Passing Sunlight → 2Ag + Br2 = Above reaction is used in black and white photography. |
| Endothermic Reactions – The reactions which require energy in the form of heat, light or electricity to break reactants are called endothermic reactions. |
| Displacement Reactions – The chemical reaction in which more reactive element displaces less reactive element from its salt solution. (a) Fe (s) + CuSO4 (aq) > FeSO4 (aq) + Cu (s)  The iron nail becomes brownish in colour by deposition of Cu and blue colour of CuSO4 changes to dirty green colour due to formation of FeSO4. (b) Zn + CuSO4 → ZnSO4 + Cu Zn is more reactive than copper. |
| 4. Double Displacement Reactions – A reaction in which new compounds are formed by mutual exchange of ions between two compounds. (i) Na2SO4 (aq) + BaCl2 (aq) → BaSO4 (s) + 2NaCl (aq) Sodium sulphate = Na2SO4 Barium chloride = BaCl2 Barium sulphate = BaSO4 Sodium chloride = NaCl White precipitate of BaSO4 is formed, so it is also called precipitation reaction. Note: All double displacement reactions are not precipitation reactions. (ii) 2KI + Pb(NO3)2 → Pbl2 + 2KNO3 Potassium iodide = KI Lead Nitrate = P(NO3)2 Lead iodide (Yellow ppt) = Pbl2 Potassium nitrate = KNO3 (iii) 2KBr + BaI2 → 2KI + BaBr2 Potassium bromide = KBr Barium iodide = BaI2 Potassium iodide = KI Barium bromide = BaBr2 |
| Oxidation And Reduction – In the reaction in which the gain of oxygen or reduces the hydrogen from a reactant are known as oxidation and the loses of oxygen or adding of hydrogen from a reactant are known as Reduction. Their are reaction in it both take place are known as Redox reaction. |
| Reduction – (i) The addition of hydrogen to reactant. (ii) The removal of oxygen from a reactant. Example – (a) CuO + H2 Heat → Cu + H2O In this reaction CuO is reduces Oxygen(O) and Hydrogen(H) Gain Oxygen(O). |
| Oxidation – (i) The addition of oxygen to reactant. (ii) The removal of hydrogen from a reactant. Example – (a) C + 02 → CO2 (b) 2Cu + 02 Heat → 2Cu0 In this reactions both are show gaining of Oxygen(O) and this is known as Oxidation. |
| Redox Reaction In the reaction one reactants gets oxidised while the other get reduced such reaction are called oxidation-reduction reaction or Redox reaction.  In this reaction CuO is reduced to Cu and H2 is oxidized to H2O. So, oxidation and reduction taking place together is redox reaction. |
| Effects of Oxidation in Daily Life 1) Corrosion – When a metal is exposed to moisture, air, acid etc. for some time, a layer of hydrated oxide is formed which weakens the metal and hence metal is said to be corroded and this process is known as Corrosion. Rusting of iron, black coating on silver and green coating on copper are examples of corrosion. Corrosion can be prevented by galvanization, electroplating or by applying paints. 2) Rancidity – The oxidation of fats and oils when exposed to air is known as rancidity. It leads to bad smell and bad taste of food. Methods to Prevent Rancidity – (i) By adding antioxidants (ii) Keeping food in air tight containers (iii) Replacing Air by nitrogen (iv) Refrigeration |
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