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The mass of atoms. Objectives. Today we will learn: What atomic number and mass number mean The relative masses of subatomic particles What isotopes are That masses of atoms can be compared by their relative atomic masses
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Objectives • Today we will learn: • What atomic number and mass number mean • The relative masses of subatomic particles • What isotopes are • That masses of atoms can be compared by their relative atomic masses • That carbon 12 is used as a standard to measure relative atomic mass from • That the relative masses of compounds can be calculated
True or False • Atoms are charged particles • Atoms contain charged particles • Electrons are found in energy levels or shells • Electrons have a negative charge • Protons are found in the nucleus of an atom • Neutrons are found in shells around the outside of an atom
Find the number of Protons, Electrons and Neutrons and the mass number of the following… • Li • Na • Al • C • Ar • Ca • Au • N • W • Bi • Hg4+ • F- • Tc3+
Isotope • Same number of protons different number of neutrons
Find the link between these • 75g of As • 80g of Br • 12g of C • 56g of Fe • 127g of I • 7g of Li • 48g of Ti • 88g of Sr • 40g of Ca • 91g of Zr • 24g of Mg • 197g of Au • 23g of Na • 1g of H • 84g of Kr • 11g of B • 119g of Sn
The Mole • Is based on Avogardos number • 6.022 x 1023 particles in one mole
Find the relative mass of the following… • Li • Na • CO2 • Al2O3 • CH4 • Ar • CaCO3 • Au • N2 • W • Bi • H2O • CuSO4•5H2O
Working out the number of moles • 12g carbon • 16g oxygen gas • 9g gold • 45g hydrogen • 10g argon
Objectives • Today we will learn: • What atomic number and mass number mean • The relative masses of subatomic particles • What isotopes are • That masses of atoms can be compared by their relative atomic masses • That carbon 12 is used as a standard to measure relative atomic mass from • That the relative masses of compounds can be calculated • You can now • Define atomic number and mass number • Use the periodic table to get atomic & mass number to work out the number of each subatomic particle that an atom has • Give a definition of atomic mass • Calculate relative formula masses • State what a mole is
Calculations with Percentages, Formulae& Equations • You will learn… • How to calculate the percentage of an element in a compound from its formula • How to calculate the empirical formulae of a compound from its percentage composition • That balanced symbol equations show the relative numbers of molecules of reactants and products in a reaction • That balanced symbols equations can be used to calculate the masses of reactants and products • Teaser… • How could you work out the % of carbon in CaCO3
Define • Click here
Percentage of an element in a compound • By Mass! • Find the relative mass of the compound • Divide the total relative mass of the element of interest by the relative mass of the compound.
Percentage of an element in a compound • For example… • Find the percentage of oxygen in magnesium oxide • Magnesium oxide = MgO • Mg = 24 • O = 16 • MgO = 40 • 16/40 = 40%
Empirical Formulae • Empirical formula Haiku Convert mass to mole Then divide it by the small Multiply til whole
Example Convert mass to mole Then divide it by the small Multiply til whole
Calculations with Percentages, Formulae& Equations • You will learn… • How to calculate the percentage of an element in a compound from its formula • How to calculate the empirical formulae of a compound from its percentage composition • That balanced symbol equations show the relative numbers of molecules of reactants and products in a reaction • That balanced symbols equations can be used to calculate the masses of reactants and products • You have learnt… • To calculate the percentage composition of an element in a compound • To calculate the empirical formulae of compounds from percentage composition.
