GCSE Chemistry (Combined) CCEA

This subject is broken down into 34 topics in 2 modules:

  1. Structures, Trends, Chemical Reactions, Quantitative Chemistry and Analysis 26 topics
  2. Further Chemical Reactions, Rates and Equilibrium, Calculations and Organic Chemistry 8 topics
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This page was last modified on 28 September 2024.

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Chemistry (Combined)

Structures, Trends, Chemical Reactions, Quantitative Chemistry and Analysis

Atomic Structure

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Atomic Structure

Atomic Structure

The Basics

  • An atom, the smallest part of an element, consists of a nucleus surrounded by electrons in orbit.
  • Protons and neutrons constitute the nucleus, with protons carrying a positive charge and neutrons being uncharged.
  • Electrons, located in shells surrounding the nucleus, carry a negative charge.
  • The atomic number, or proton number, identifies an element.
  • The mass number, or nucleon number, equals the total number of protons and neutrons in an atom's nucleus.
  • Isotopes are atoms of the same element with different numbers of neutrons. They have the same atomic number but different mass numbers.

Electronic Structure

  • Electrons inhabit energy levels or shells around the atomic nucleus.
  • The lowest energy level (closest to the nucleus, called 1st level) is populated before the higher levels (2nd level, 3rd level, etc.).
  • An electron shell can hold a specific maximum number of electrons.
  • Energy levels nearer to the nucleus are filled first with electrons.
  • The outermost energy level of an atom determines its chemical properties and reactivity.

Quantum Mechanics and Atomic Structure

  • Each electron is described by four quantum numbers--principal, azimuthal, magnetic, and spin--which identify its state.
  • Two electrons cannot occupy the same quantum state simultaneously, indicated by Wolfgang Pauli's Exclusion Principle.
  • Valence electrons are the electrons present in an atom's outer shell.
  • The arrangement of electrons in different energy levels, or shells, is known as the electron configuration. It is crucial for understanding an atom's reactivity and bonding behaviour.

Understanding the Periodic Table through Atomic Structure

  • A period in the periodic table is a horizontal row. All the atoms in a period have the same number of atomic orbitals.
  • Every element in a group has the same number of valence electrons. Examples can be seen in groups such as alkali metals and noble gases.
  • The transition metals, located in the middle of the periodic table, contain their valence electrons in two shells instead of just one.
  • The lanthanides and actinides at the bottom of the table include elements with their valence electrons in f orbitals.

Course material for Chemistry (Combined), module Structures, Trends, Chemical Reactions, Quantitative Chemistry and Analysis, topic Atomic Structure

Chemistry (Combined)

Structures, Trends, Chemical Reactions, Quantitative Chemistry and Analysis

Quantitative Chemistry

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Quantitative Chemistry

Quantitative Chemistry

Relative Atomic Mass and the Mole

  • Relative atomic mass (Ar) is the mean mass of an atom relative to one-twelfth of the mass of an atom of carbon-12.
  • A mole is the unit used to count entities at the atomic, ionic, or molecular level. It's the number of atoms in 12 grams of carbon-12, around 6.02 x 10^23 entities.
  • To calculate the number of moles, use the formula: number of moles = mass (g) / relative atomic mass or formula mass.
  • The molar mass of a substance is the mass per mole, with units g/mole.

Balancing Equations and Stoichiometry

  • A balanced chemical equation has the same number of each type of atom on both the reactant and product sides.
  • The coefficients of a balanced equation represent the stoichiometry of the reaction, indicating the ratio in which moles of each reactant combine to form products.
  • For instance, in N2 + 3H2 -> 2NH3, 1 mole of nitrogen combines with 3 moles of hydrogen to form 2 moles of ammonia.

Concentration

  • Concentration is the amount of solute dissolved in a set volume of solution and is usually expressed in mole/dm^3 or g/dm^3.
  • To calculate concentration in moles/dm^3, divide the number of moles of solute by the volume of solution in dm^3.
  • To convert from concentration in g/dm^3 to moles/dm^3, divide the concentration by the relative atomic or formula mass.

Yield and Atom Economy

  • The yield of a reaction is the actual amount of a product obtained, which can be less than the theoretical yield due to incomplete reactions, side reactions, or loss during processing.
  • To calculate the percentage yield, divide the actual yield by the theoretical yield, then multiply by 100.
  • Atom economy is a measure of how well atoms are utilised in a reaction. It's calculated as (mass of desired product / total mass of reactants) x 100.
  • Reactions with high atom economy are usually preferable as they're more resource efficient and generate less waste.

Empirical and Molecular Formulas

  • The empirical formula is the simplest ratio of atoms of each element in a compound.
  • To find the empirical formula, calculate the moles of each element and then divide by the smallest number of moles. The results are the ratio of atoms.
  • The molecular formula specifies the actual number of atoms of each element in a molecule. It’s a multiple of the empirical formula. The multiplier can be found by dividing the molecular mass by the empirical formula mass.

Course material for Chemistry (Combined), module Structures, Trends, Chemical Reactions, Quantitative Chemistry and Analysis, topic Quantitative Chemistry

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