Matter and it's Nature Class-11 Chemistry Notes for IIT-JEE and NEET

Introduction

Human beings have observed different forms of matter through the ages. Matter exists everywhere, from an element to huge galaxies. It is important to comprehend it deeply for students who are studying for competitive exams like NEET and IIT-JEE because it works as base of so many concepts of chemistry. In this effort, it is evident that this guide makes the basic idea of it quite clear and assists students in easily having the first-level understanding.

1. Definition and Classification

It consists of atoms and molecules which possess mass and volume and are capable of interactions.

2. States

It is usually regarded as being in the form of three distinct states: solid, liquid, and gas. Each state has its specific characteristics depending on the manner in which the particles are arranged and rotate:

• Solid state:particles that are tightly packed in a constituted fixed center of mass in which they only vibrate in place. All solids are ice or iron hence all solids possess a fixed volume and shape.
• Liquid state: Particles are firmly placed but have the ability to move about. Hence liquids possess a fixed volume but do not have a defined shape, for instance, in water and oil. Gaseous state: Particles in a gaseous state are not held by any attractive forces so they can move freely. Gases such as oxygen, nitrogen or even decorative smoke do not have a defined shape nor a defined volume.

Other States

Matter can also exist in forms:

• Plasma: is a super energetic state of matter that contains ionized particles and is usually found in neon lights or stars.
• Bose-Einstein Condensate (BEC): As observed in superfluid helium, particles that are formed at temperatures close to absolute zero occupy the same quantum state.

3. Properties

In the field of science, it might be classified or identified on the basis of their chemical and physical properties.

Physical Properties

• Mass and Volume: Mass is defined as the amount of matter present; volume is defined as the amount of space that matter occupies.
• Density:Dense material is contained in a small volume, determined by the formula ρ = m/V.
• Melting and Boiling Points: The point at which a solid begins to transition to a liquid and the point at which a liquid completely becomes gaseous.
• Solubility:It is defined as how much of a solute can be dissolved in a solvent.
• Conductivity: The extent to which x, an electric current (electrical conductivity) or heat (thermal conductivity), is conducted by a substance.

Chemical Properties

• Reactivity:How fast a compound will react with other compounds.
• Combustion:The act of igniting something in an atmosphere that contains oxygen.
• Oxidation:An act of chemical reaction that includes the incorporation of oxygen as in the rusting of iron.
• Acidity and Basicity: The ability of a substance that is acidic is referred to as proton-donating (acidic) and hydroxide (basic) and is measured with a pH scale.

4. The Atomic Theory

Historical Development

The history of atomic theory is quite long having been contributed by several individuals;

• Democritus: Advanced a concept that there are small, indivisible particles he called “atomos.”
• John Dalton: Came up with the atomic theory or the atomic hypothesis and postulated the atomic theory in its simplest form.
• J. Thomson:Thomson promoted the “plum pudding” model. He conducted research.
• Ernest Rutherford: After the gold foil experiment, he developed a nucleus-centric model theory.
• Niels Bohr:Suggested electrons orbit in fixed energy levels.
• Quantum Mechanics:Schrödinger and Heisenberg introduced probability clouds and the uncertainty principle.

Modern Atomic Theory

Modern theory describes atoms as nuclei (containing protons and neutrons) surrounded by electrons in orbitals. Atoms of the same element have identical protons but may vary in neutrons (isotopes).

5. Elements, Compounds, and Mixtures

Elements

An element comprises only one type of atom. They’re classified as:

• Non-metals: Brittle, lack luster, Poor conductors (e.g., oxygen, sulfur).
• Metals: Malleable, Shiny and good conductors (e.g., gold, copper).
• Metalloids:Intermediate properties (e.g., silicon, germanium).

Compounds

Compounds are substances formed by chemical bonding of elements in a fixed ratio (e.g., H₂O, CO₂).

Mixtures

A mixture contains two or more substances retaining their properties, categorized as:

• Homogeneous:Uniform composition (e.g., saltwater).
• Heterogeneous:Non-uniform, with visibly different components (e.g., sand and iron filings).

6. Atomic and Molecular Structure

Atomic Structure

• Nucleus:Contains protons and neutrons, thus giving the atom most of its mass.
• Electrons:Negatively charged particles orbiting in defined energy levels.

Molecular Structure

Molecules form when atoms bond. The main types of bonds include:

• Covalent Bonds: Atoms share electrons (H2O, for example).
• Ionic Bonds: Electrons are transferred, forming charged ions (e.g., NaCl).
• Metallic Bonds: Free-moving electrons bind metal atoms (e.g., iron).

7.  Periodic Table

Development

Elements are organized as per to their characteristics and atomic number in the periodic table. Key contributors include:

• Dmitri Mendeleev: Created the first table by atomic mass and predicted undiscovered elements.
• Henry Moseley: Reorganized it by atomic number, leading to the modern structure.

Set up of the Periodic Table

• Periods
• Groups

Periodic Trends

• Atomic Radius: Reduces across a period and accelerates down a group.
• Ionization Energy: Accelerates across a period and reduces down a group.
• Electronegativity: Accelerates across a period, reduces down a group.
• Non-metallic and Metallic Character: Metallic reduces character over a span and increases within a group, with non-metallic character showing the opposite trend.

8. Chemical Equations and Reactions

Chemical reactions are the adjustment of atoms that forms fresh substances. Types of reactions include:

• Combination: Two or more substances combine (A + B → AB).
• Decomposition: A compound breaks into simpler substances (AB → A + B).
• Displacement: One element replaces another in a compound (A + BC → AC + B).
• Double Displacement: Ions exchange between compounds (AB + CD → AD + CB).
• Combustion: A substance burns in oxygen (e.g., Hydrocarbon + O₂ → CO₂ + H₂O).

Equilibrating Chemical Equations: To equilibrate equations, make sure every element has a same number of atoms on both of the sides, continuing the law of conservation of mass.

Stoichiometry: Stoichiometry uses the mole concept and balanced equation to calculate the quantity of products and reactants. 

Conclusion

Learning about the matter’s nature is the most basic thing in chemistry, assisting students in explore  difficulties of the compounds, elements, periodic table and atomic theory. These concepts give the tools required to excel in competitive exams and navigate the world of chemical.

FAQs

1. What is matter?

Everything that takes up space and has mass is called matter, consisting of molecules and atoms.

2. How the states of matter are different?

Liquid have fixed volumes but acquires the shape of the container, solids have set shapes, and gases have no shape at all.

3. What are chemical and physical properties?

Chemical properties refer to the reactivity of a substance whereas physical properties includes volume and mass.

4. Periodic table is considered important generally. What’s the reason for that?

The periodic table shows trends and arranges elements that aid in predicting the behavior of chemical.

5. What are the methods to balance chemical equations?

Adjust coefficients to ensure the same number of each atom appears on