By the end of the lesson learners should be able to:
State what is meant by a Hydrocarbon.
Describe the process of fractional distillation.
Explain why fractional distillation is used.
By the end of the lesson learners should be able to:
Identify covalent bonds within diagrams.
Describe what happens during a covalent bond.
Explain why covalent compounds do not have a charge.
By the end of the lessons learners should be able to:
Identify the 3 allotropes of carbon.
Describe how the atoms of carbon are arranged in the allotropes of carbon.
Explain the properties of the allotropes of Carbon.
By the end of the lessons learners should be able to:
Identify the 4 bonding models.
Describe the properties of each bonding model.
Compare the features of each bonding model.
By the end of the lesson learners should be able to:
Identify the contents of an atom.
Describe what is meant by a mass number and atomic number.
Calculate the number of neutrons.
By the end of the lesson learners should be able to:
Use groups and periods to identify specific elements.
Describe how elements are placed in the periodic table.
Compare the older version which included gaps with the modern periodic table.
By the end of the lesson learners should be able to:
Identify the methods used to treat water.
Describe the process of treating water.
Explain why it is important to treat water.
By the end of the lesson learners should be able to:
Identify what is meant by oxidation and reduction.
Describe how halogens and metals react during displacement reactions.
Explain why transitions metals can bond to many different atoms.
By the end of the lesson learners should be able to:
•Identify the S, P and D blocks.
•Describe what is meant by an ionisation energy.
•Explain why the ionisation energy changes through groups and periods.
A self-explanatory lesson explaining the process of recycling materials and why people are choosing to recycle.
Scaffolded questions are used to ensure all learners can access the material.
A self-explanatory resource that explains how igneous and metamorphic rocks are formed.
Questions are scaffolded to ensure access to all pupils.
Filler tasks are available at the end of the PPT.
A comprehensive lesson which teaches students about the process of electrolysis. Slide by slide animations are used to guide the students through visualising the ions separating and being attracted to their relevant electrodes.
Plenary questions are also available to test understanding.
By the end of the lesson learners should be able to:
Identify ions that make up an electrolyte.
Describe the ions most likely to react at the anode / cathode.
Explain the products formed during electrolysis.
A comprehensive lesson which teaches students about the reactions of alkali metals and water (specifically group 1). Learners will be able to explain the reactivity with regards to shielding.
Learning objective: Explain the reactivity of group 1 metals with water and justify the reason for this reactivity.
By the end of the lesson learners should be able to:
Success criteria:
Identify the products produced when metal and water react.
Describe the order of reactivity in group 1 metals.
Explain the dangers of Potassium, Rubidium and Caesium.
Powerpoint contains 45 slides (some slide-by-slide animations)
By the end of the lesson learners should be able to:
Identify chemical and physical reactions.
Describe how physical and chemical reactions are different.
Explain why catalysts are needed by businesses.
By the end of the lesson learners should be able to:
Identify the products and reactants of combustion.
Describe how to affect the rate of combustion.
Explain why combustion must be controlled.
By the end of the lesson learners should be able to:
Identify word and chemical equations.
Describe how to write a chemical and word equation.
Compare word and chemical equations.