Topics
Periodic Table, Periodic Properties and Variations of Properties
- The Modern Periodic Table
- Salient Features of the Modern Periodic Table
- Periodicity
- Shells and Valency
- Periodic Properties
- Atomic Size
- Metallic Character
- Non-metallic Character
- Ionisation Potential (Ionisation Energy)
- Electron Affinity
- Electronegativity
- Summary Periodic Properties
- Atomic Number and Mass Number
- Comparison of Alkali Metals and Halogens
Chemical Bonding
- Concept of Chemical Bonding
- Ionic or Electrovalent Bond
- Conditions for the Formation of an Electrovalent (or ionic) Bond
- Structures of Some Electrovalent Compounds
- The Covalent Bond
- Types of Covalent Bonds
- Non-Polar and Polar Covalent Compounds
- Formation of Covalent Bond
- Properties and Comparison of Electrovalent and Covalent Compounds
- Effect of Electricity on Electrovalent and Covalent Compounds
- Coordinate Bond
Acids, Bases and Salts
Acids and Bases
- Basics of Acids, Bases, and Salts
- Acids
- Classification of Acids
- Preparation of Acids
- Properties of Acids > Physical Properties
- Properties of Acids > Chemical Properties
- Uses of Acids
- Bases (Alkalis)
- Classification of Bases (Alkalis)
- Preparation of Bases
- Properties of Bases > Physical Properties
- Properties of Bases > Chemical Properties
- Uses of Bases
- Test for Acidity and Alkalinity
- Importance of pH in Everyday Life
Salts and their Preparations
Properties of Salts
- General Properties of Salts
- Differences Between Drying Agent and Dehydrating Agent
Analytical Chemistry
- Chemical Analysis
- Colours of the Salts and Their Solutions
- Action of Sodium Hydroxide Solution on Certain Metallic Salt Solutions
- Action of Ammonium Hydroxide on Certain Salt Solutions
- Action of Alkalis on Certain Metals
- Action of Alkalis on Metal Oxides
Mole Concept and Stoichiometry
Gay-Lussac's Law and Avogadro's Law
Relative Atomic Mass, Relative Molecular Mass and Mole Concept
Percentage Composition, Empirical and Molecular Formulae
Calculations Based on Chemical Equations
- Chemical Equations
- Problems Based On Reacting Weights
- Problems Based on Mass-Volume Relationship
- Challenging Problems Beyond the Syllabus
Electrolysis
- Electrolysis and Conductivity of Substances
- Metallic Conductors vs Electrolytic Conductors
- Strong Electrolytes vs Weak Electrolytes
- Acids, Bases and Salts as Electrolytes
- Anode vs Cathode
- Cations vs Anions
- Oxidation
- Chemical Properties of Carbon Compounds > Reduction
- Theory of Electrolytic Dissociation
- Conduction in Compounds
- Characteristics of Electrolysis
- Electrolytic Dissociation
- Ionisation
- Comparison of Ionisation and Dissociation
- Electrochemical Series (Electromotive Series)
- Preferential or Selective Discharge of Ions at Electrodes
- Examples of Electrolysis
- Applications of Electrolysis > Electroplating
- Applications of Electrolysis > Electrolytic Refining of Metals
- Applications of Electrolysis > Electrometallurgy
Metallurgy
Metals - Occurence
- Earth and Elements
- Metals
- Non-Metals
- Occurrence of Metals
- Common Ores of Aluminium, Iron and Zinc
Stages Involved in the Extraction of Metals
Extraction of Aluminium
- Aluminium
- Extraction of Aluminium
- Electrolytic Reduction of Refused Alumina
- Refining of Aluminium
Alloys
- Alloy
- Purpose of Making Alloys
- Reasons for Alloying
- Methods of Making Alloys
- Alloys as Solid Solutions
Study of Compounds A. Hydrogen Chloride
- Hydrogen Chloride
- General Preparation of Hydrogen Chloride Gas
- Recognition and Identification of Gases
- Physical Properties of Hydrogen Chloride Gas
- Chemical Properties of Hydrogen Chloride Gas
- Hydrochloric Acid
- Laboratory Method of Preparation of Hydrochloric Acid
- Properties of Hydrochloric Acid > Physical Properties
- Properties of Hydrochloric Acid > Chemical Properties
- Uses of Hydrochloric Acid
- Tests for Hydrogen Chloride and Hydrochloric Acid
Study of Compounds B. Ammonia
- Ammonia
- Preparation of Ammonia Gas
- Recognition and Identification of Gases
- Preparation of Aqueous Ammonia
- Manufacture of Ammonia (Haber's Process)
- Physical Properties of Ammonia
- Chemical Properties of Ammonia
- Tests for Ammonia Gas and Ammonium Ion
- Uses of Ammonia
Study of Compounds C. Nitric Acid
- Nitric Acid
- Laboratory Preparation of Nitric Acid
- Manufacture of Nitric Acid
- Physical Properties of Nitric Acid
- Chemical Properties of Nitric Acid
- Uses of Nitric Acid
- Tests for Nitric Acid and Nitrates
- Effects of Heat on Nitrates
Study of Compounds D. Sulphuric Acid
- Sulphuric Acid
- Manufacture of Sulphuric Acid
- Physical Properties of Sulphuric Acid
- Chemical Properties of Sulphuric Acid
- Uses of Sulphuric Acid
- Tests for Sulphuric Acid and Sulphates
Organic Chemistry
Organic Compounds
- Organic Chemistry
- Organic Compounds
- Organic Compounds vs Inorganic Compounds
- Carbon: A Versatile Element
- Types of Organic Compounds
- Hydrocarbons
- Cyclic or Closed Chain or Ring Chain Compounds
- Structure of Compounds
- Alkyl Group
- Functional Group
- Homologous Series
- Nomenclature
- Rules of Nomenclature of Organic Compounds
- Structural Formula from IUPAC Name
- Isomerism
- Types of Structural Isomerism
Hydrocarbons : Alkanes
- Alkanes
- Isomerism in Alkanes
- Occurrence of Methane and Ethane
- Structure of Methane
- Laboratory Preparation of Methane
- Laboratory Preparation of Ethane
- Other Methods of Preparation of Methane and Ethane
- Physical Properties of Methane and Ethane
- Chemical Properties of Methane and Ethane
- Uses of Methane and Ethane
Hydrocarbons: Alkenes
- Alkenes
- Ethene (Ethylene)
- Preparation of Ethene (Ethylene)
- Physical Properties of Alkenes
- Chemical Properties of Alkenes
- Uses of Ethene
Hydrocarbons: Alkynes
- Alkynes
- Ethyne
- Physical Properties of Ethyne
- Chemical Properties of Ethyne
- Uses of Ethyne
- Chemical Tests to distinguish between Alkanes, Alkenes and Alkynes
Alcohols
Carboxylic Acids
Practical Work
- Recognition and Identification of Gases
- Action of Heat
- Identifying Substances by Colour, Smell, State & Heat Effect
- Distinction between Colourless Solutions of Dilute Acids and Alkalis
- Distinguish between Black Copper Oxide and Black Manganese Dioxide
- Flame Test
- Indicators
- Definition: Alloy
- Definition: Fusible Alloy
- Definition: Alloy Steel
- Definition: Amalgam
- Definition: Dental Amalgam
Maharashtra State Board: Class 8
Introduction
An alloy is a homogeneous mixture of two or more metals or a metal mixed with nonmetals. This means the components are uniformly mixed, making the alloy a single, consistent material. Alloys are created by mixing elements in specific proportions to achieve desired properties, such as increased strength, resistance to corrosion, or improved durability.
For Example,
- Stainless Steel: This is a common alloy used for household utensils. It is made by combining iron with carbon, chromium, and nickel to make it strong and resistant to rust.
- Bronze: This is another well-known alloy formed by mixing copper and tin. It is hard and has been used for tools, statues, and medals.
Maharashtra State Board: Class 8
Types of Alloy
1. Ferrous Alloys: Alloys that contain iron as a primary component, such as stainless steel and cast iron. The term "ferrous" comes from the Latin word ferrum, meaning iron.
Properties:
- Ferrous alloys are generally strong and durable.
- They are magnetic in nature, which is useful in certain applications like motors and transformers.
- However, they may be prone to rust if not properly protected, except for alloys like stainless steel.
2. Non-Ferrous Alloys: These are alloys that do not contain iron. Non-ferrous alloys are made from metals like copper, aluminium, nickel, bronze and zinc.
Properties:
- Non-ferrous alloys are generally lighter than ferrous alloys, making them suitable for applications where weight is a concern, such as in aircraft and automotive parts.
- They are resistant to corrosion, which makes them ideal for use in environments exposed to moisture or chemicals.
- Non-ferrous alloys are usually non-magnetic, making them useful in electronic and electrical applications.
Maharashtra State Board: Class 8
Advantages of Alloy
- Alloys are stronger and more durable than pure metals; for instance, steel is much stronger than iron.
- They resist rust and corrosion, making alloys like stainless steel ideal for harsh environments.
- Alloys such as bronze are harder than their base metals, suitable for tools and heavy-duty use.
- The properties of alloys can be tailored, like enhancing conductivity or adjusting melting points.
- They are versatile and used in various fields, including construction, manufacturing, healthcare, and transportation.
CISCE: Class 10
Definition: Alloy
An alloy is a homogeneous mixture of two or more metals or of one or more metals with certain non-metallic elements.
CISCE: Class 10
Definition: Fusible Alloy
Alloys melting in the range of about 51 °C to 260°C, usually contain bismuth, lead, tin, etc. These alloys are called fusible alloys.
CISCE: Class 10
Definition: Alloy Steel
A steel containing up to 10% of elements such as chromium, molybdenum, nickel, etc., usually with a low percentage of carbon is known as alloy steel.
CISCE: Class 10
Definition: Amalgam
A mixture or an alloy of mercury with a number of metals or alloys such as sodium, zinc, gold and silver as well as with some non metals is known as amalgam.
CISCE: Class 10
Definition: Dental Amalgam
Dental amalgam is a mixture of mercury and a silver-tin alloy.
