Grade 10 Chemistry Program

  ATOMIC AND MOLECULAR STRUCTURE

• Position of an element in the Periodic Table, its atomic number and atomic mass
• Periodic Table to identify metals, semimetals, nonmetals, and halogens
• Periodic Table to identify alkali metals, alkaline earth metals and transition metals, and trends in ionization energy, electronegativity, and the relative sizes of ions and atoms
• Periodic Table to determine the number of electrons available for bonding
• The Nucleus
• Periodic Table to identify the lanthanides and actinides, and transactinide elements
• Position of an element in the periodic table, its quantum electron configuration, and reactivity with other elements in the table
• Thomson's discovery of the electron
• Rutherford's nuclear atom
• Millikan's oil drop experiment
• Einstein's explanation of the photoelectric effect
• Quantum theory of atomic structure
• Historical importance of the Bohr model of the atom
• Spectral lines
• Planck's relationship (E=hn)

  CHEMICAL BONDS

• Covalent or metallic bonds, ionic bonds
• Chemical bonds between atoms in molecules such as H2, CH4, NH3, H2CCH2, N2, Cl2
• Electrostatic attraction in salt crystals such as NaCl
• Inter-molecular forces in a solid and liquid
• Lewis dot structures - Shape of simple molecules and their polarity
• Electronegativity and ionization energy - bond formation
• Solids and liquids held together by Van der Waal's forces

  CONSERVATION OF MATTER AND STOICHIOMETRY

• Writing balanced equations
• Definition of a Mole
• Molar mass of a molecule from its chemical formula and a table of atomic masses
• Converting the mass of a molecular substance to moles
• Number of particles or volume of gas at standard temperature and pressure
• Masses of reactants and products in a chemical reaction
• Percent yield in a chemical reaction
• Oxidation and reduction reactions
• Balancing oxidation-reduction reactions

  GASES AND THEIR PROPERTIES

• Random motion of molecules and their collisions with a surface
• Random motion of molecules and diffusion of gases
• Applying the gas laws to relations between the pressure, temperature, and volume
• Standard temperature and pressure (STP)
• Convert between Celsius and Kelvin temperature scales
• Kinetic theory of gases
• Problems using the ideal gas law in the form PV=nRT
• Dalton's Law of Partial Pressures
• Graham's Law to describe diffusion of gases

  ACIDS AND BASES

• Properties of acids, bases and salt solutions
• Acids and Bases
• Strong acids and bases; Weak acids and bases
• pH scale to characterize acid and base solutions
• The Arrhenius, Bronsted-Lowry and Lewis acid-base definitions
• Calculating pH from the hydrogen ion concentration
• pH in acid-base reactions

  SOLUTIONS

• Definitions of solute and solvent
• The dissolving process as a result of random molecular motion
• Temperature, pressure, and surface area - their affect the dissolving process
• Concentration of a solute in terms of grams per liter, molarity, parts per million and percent composition
• Relationship between the molality of solute in a solution, and the solution's depressed freezing point or elevated
  boiling point
• Chromatography and distillation

  CHEMICAL THERMODYNAMICS

• Temperature and heat flow in terms of the motion of molecules (or atoms)
• Chemical processes - exothermic and endothermic
• Energy - Released and absorbed
• Problems involving heat flow and temperature changes
• Hess's Law to calculate enthalpy change in a reaction
• Gibbs free energy equation to determine whether a reaction would be spontaneous

  REACTION RATES

• Rate of reaction
• Concentration, temperature, and pressure - their effect on reaction rates
• Role a catalyst in reaction rates
• Definition and role of activation energy in a chemical reaction

  CHEMICAL EQUILIBRIUM

• LeChatelier's Principle
• Forward and reverse reaction rates, equilibrium
• Equilibrium constant expression for a reaction

  ORGANIC AND BIOCHEMISTRY

• Formation of large molecules (polymers) such as proteins, nucleic acids and starch
• Bonding characteristics of carbon, simple hydrocarbons, complex polymers and biological molecules
• Amino acids as building blocks of proteins
• System for naming the ten simplest linear hydrocarbons and isomers containing single bonds, simple hydrocarbons
  with double and triple bonds, and simple molecules containing a benzene ring
• Functional groups which form the basis of alcohols, ketones, ethers, amines, esters, aldehydes, and organic acids
• R-group structure of amino acids and how they combine to form the polypeptide backbone structure of proteins

  NUCLEAR PROCESSES

• Protons and neutrons
• Nuclear forces
• Electromagnetic repulsion between the protons
• Nuclear fusion and fission reactions
• Radioactive isotopes
• Three most common forms of radioactive decay (alpha, beta, gamma)
• Changes in the nucleus in each type of decay
• Alpha, beta, and gamma radiation
• Amount of a radioactive substance remaining after an integral number of half lives have passed
• Protons and neutrons - substructure, quarks