📘 Class 10 Chemistry – Chapter 2 Notes (Atomic Structure) Sindh Board

Class 10 Chemistry — Chapter 2: Atomic Structure

Sindh Board — Complete solved notes, definitions, solved short & long questions, and quick revision points for Chapter 2.

Important Definitions

Atom: The smallest particle of an element that can take part in a chemical reaction.
Atomic Number (Z): Number of protons in the nucleus of an atom.
Mass Number (A): Total number of protons and neutrons in the nucleus. A = Z + N.
Isotopes: Atoms of the same element with the same atomic number but different mass numbers (e.g., C‑12, C‑14).
Isobars: Atoms of different elements having the same mass number but different atomic numbers.
Orbitals: Regions around the nucleus where electrons are most likely to be found (s, p, d, f).
Quantum Numbers: Four numbers (n, l, m, s) that describe the energy and position of an electron.
Electronic Configuration: Distribution of electrons in shells and subshells (eg. Na: 1s² 2s² 2p⁶ 3s¹).

Rutherford’s Atomic Model (Summary)

Most of the atom is empty space.
All positive charge and most mass are concentrated in a small, dense nucleus.
Electrons move around the nucleus.

Limitations: Could not explain atomic stability or spectral lines of hydrogen; predicted orbiting electrons should lose energy and fall into nucleus.

Bohr’s Model (Key Points)

Electrons move in fixed circular orbits with quantized energies.
Electrons do not radiate energy while in permitted orbits.
Energy is emitted or absorbed when electrons jump between orbits: ΔE = hν.
Explained the hydrogen atom spectrum successfully but failed for multi-electron atoms.

Quantum Numbers (n, l, m, s)

Principal (n): 1,2,3,… indicates main energy level and size of orbital.
Azimuthal (l): 0 to n−1 defines subshell (0=s,1=p,2=d,3=f).
Magnetic (m): −l … 0 … +l defines orientation of orbital.
Spin (s): +½ or −½ describes electron spin; maximum two electrons per orbital with opposite spins.

Example: For 3p orbital: n=3, l=1, m can be −1,0,+1.

Electronic Configuration & Aufbau Principle

Electrons fill the lowest energy orbitals first (Aufbau principle), obey Pauli exclusion principle and Hund’s rule.

Element	Atomic No.	Electronic Configuration
Hydrogen (H)	1	`1s¹`
Carbon (C)	6	`1s² 2s² 2p²`
Sodium (Na)	11	`1s² 2s² 2p⁶ 3s¹`
Chlorine (Cl)	17	`1s² 2s² 2p⁶ 3s² 3p⁵`

Isotopes & Isobars

Isotopes: Same Z, different A. Example: ^{12}C and ^{14}C. Uses: C‑14 dating, medical tracers.

Isobars: Different elements, same mass number. Example: ^{40}Ca (Z=20) and ^{40}Ar (Z=18).

Solved Short Questions

Q1: Difference between atomic number and mass number?

Atomic number (Z) = number of protons. Mass number (A) = protons + neutrons.

Q2: Write electronic config. of Na.

Na (Z=11): 1s² 2s² 2p⁶ 3s¹.

Q3: Define quantum numbers.

Four numbers (n, l, m, s) describing electron energy and position.

Q4: Difference between orbit and orbital?

Orbit (Bohr): fixed circular path. Orbital (modern): region of probability where electron is found.

Solved Long Questions

Q1: Describe Rutherford’s model and limitations.

Rutherford proposed a tiny dense positively charged nucleus with electrons moving around it. Limitations: could not explain atomic stability, electron energy levels, or hydrogen spectrum lines.

Q2: Explain Bohr’s model and limitations.

Bohr introduced quantized orbits with fixed energy. Electrons jump between orbits emitting/absorbing photons: ΔE = hv. Limitations: only explains hydrogen-like atoms; fails for multi-electron atoms and doesn’t account for fine spectral details.

Q3: Explain the four quantum numbers with an example.

Principal n=2, Azimuthal l=1 (p), Magnetic m=−1,0,+1, Spin s=+½ or −½. Example: For 2p electron, n=2, l=1.

Q4: Importance of isotopes.

Used in medicine (diagnosis & therapy), archaeology (radiocarbon dating), industry (tracers), and research.

Quick Revision Points

Z = number of protons; A = protons + neutrons.
Isotopes: same Z, different A; Isobars: different Z, same A.
Electrons fill orbitals by Aufbau principle; Pauli exclusion limits two electrons per orbital.
Quantum numbers uniquely identify an electron in an atom.