Targeted towards Pearsons BTEC Applied Science Unit 2 Assignment A.
By the end of the lesson learners will be able to:
Produce a table of volume added and pH when observing a titation.
Calculate the concentration of the unknown sample.
Produce a graph of pH against volume added including the equivalence point.
Produce a graph of Change of pH / Change of volume against volume added and label the equivalence point here.
This graph can also be referred to as the graph of the first integral of pH against volume.
A revision session containing a mind map (with guidance and without).
A Powerpoint containing a quiz session (10 questions) - excellent for a starter / plenary.
Answers to each section of the mind map within the Powerpoint.
By the end of the lesson learners should be able to:
Identify the stages of drug development.
Describe how drugs are tested for efficacy.
Explain why drug testing is needed.
By the end of the lesson learners should be able to:
Identify carrier waves.
Describe how waves can be modulated by amplitude or frequency.
Explain why radio receivers are often able to detect a signal over a large area.
Lessons created to complement the activate 3 unit of work - Detection in biology.
Practical notes are on slide 12 with risk assessment prep.
By the end of the lesson learners should be able to:
State the contents of blood.
Describe the functions of blood.
Explain why blood transfusions can be dangerous.
Lessons created to match the activate 3 scheme of work.
All features work when used with google slides. All features should all work with powerpoint but might need some rearranging.
By the end of the lesson learners will be able to:
Identify new vehicle fuels.
Describe the advantages and disadvantages of new vehicle fuels.
Justify the expense of using new fuels as opposed to petrol and diesel.
All features work when used with google slides. All features should work with PowerPoint, but might need some rearranging.
There is a video in this lesson showing students how to brew alcohol at home using yeast, grape juice and sugar - if you are not comfortable showing students this please do not buy this resource. My reasoning for using this was to make the learning more relatable to them as my students don’t have enough cultural capital to grasp the industrial process.
By the end of the lesson learners should be able to:
Identify the equation for fermentation.
Describe how bread, beer and wine are made.
Explain why people don’t become drunk from eating bread.
A fast paced escape room containing 12 different challenges! - set at 5 minute intervals will easily fill your entire lesson with the students working to crack the code.
Each challenge is set at 3 different levels - these can be switched as needed for any challenge i.e. if you’ve covered the periodic table recently you might want your class to attempt the level 2 or 3 version of the challenge.
The challenges cover topics such as:
The Periodic Table,
Acids and Alkalis,
Circuits,
Motion graphs (Distance-time and Velocity-time),
Food tests,
Animal and plant cells,
Food chains / webs,
Radioactivity Half-life,
Reflection - pathway of light through many mirrors.
Separating techniques - filtration, crystallisation and distillation.
Moments / Turning forces
DNA triplet code reading
Slides can be printed to give out to students or projected on the board - not necessary to print.
An answer sheet for each student can also be printed.
The final slide contains the correct answers in the correct order.
Resource was intended for BTEC Applied Science Unit 1 Biology.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Past paper questions are included with the relevant mark scheme answers following.
By the end of the lesson learners should be able to:
Identify the components of a nerve cell: Dendrite, Axon and axon terminal.
Describe the function of a synapse.
Explain why it is important that neurotransmitters are digested after they generate an impulse.
By the end of the lesson learners should be able to:
Identify amino acid structure and the primary, secondary, tertiary and quaternary structure of proteins.
Describe the arrangement of amino acids and proteins.
Explain the importance of these structures.
Includes past paper questions targeted towards the content delivered in lesson - correct answers are included.
24 slides in total. Answer key included for all questions.
A comprehensive collection of materials needed to deliver the entire activate 3 (for year 9) curriculum. Although the SoW states that GCSE content can be delivered in term 3, there is enough content in this pack to last the final half term.
Materials were prepared using google docs / slides - to prevent formatting issues, please open the resources using google slides instead of powerpoint.
The materials include:
A fully written scheme of work.
Full lessons for each lesson / concept.
Revision mind maps for end of units.
GAP tasks to consolidate learner knowledge.
It does not include due to copyright infringements:
The end of unit tests for activate 3.
A collection of 4 revision mats for students to fill (answer sheets are included) - I found it has been useful to zoom in on selected parts on the projector as students check their notes on the sheet.
Notes are condensed for the following topics:
Electricity,
Magnetism,
Matter,
Forces and Energy.
Slides were originally produced on google slides, please open them as google slides to avoid formatting issues.
This resource originally produced on google slides was used to guide students through the pig trotter dissection.
It includes:
The risk assessment,
The method,
A quiz regarding joints in the body,
Big question plenary - Describing how joints are arranged.
A collection of revision resources for Pearsons combined science 9-1 edexcel specification: Chemistry paper 2. Sometimes referred to as Chemistry paper 1.
The resources were originally produced on google slides, therefore, please open them using google slides in order to avoid alignment issues on powerpoint.
Included in this collection are:
Blank revision posters for the students to fill and consolidate their knowledge.
Answer keys for the revision posters OR revision slides to complement the blank revision posters.
Topics covered are:
Section 10 - Key Concepts in Chemistry
Section 11 - States of Matter & Mixtures
Section 12 - Chemical Changes
Section 13 - Extracting Metals & Equilibria
The entire resource contains 52 slides.
A comprehensive collection of materials needed to deliver the entire activate 2 (for year 8) curriculum.
The materials include:
A fully written scheme of work.
Full lessons for each lesson / concept.
Revision mind maps for end of units.
GAP tasks to consolidate learner knowledge.
It does not include due to copyright infringements:
The end of unit tests for activate 2.
By the end of the lesson learners will be able to:
Recall when electrons can change orbit.
Describe how ionisation occurs.
Describe some of the evidence for the Bohr model of the atom.
By the end of the lesson learners should be able to:
Recall the equipment needed to carry out electrolysis.
Describe the effect of voltage on product.
Explain the reasoning for this.
A comprehensive collection of materials needed to deliver the entire Pearsons Edexcel Combined Science (9-1) curriculum. Following the Activelearn curriculum.
The materials include:
A fully written scheme of work.
Full lessons for each lesson / concept.
Revision mind maps for end of units.
Some core practical resources are still in the process of being completed (this resource will be updated as soon as these are updated)
It does not include due to copyright infringements:
The end of unit tests from Activelearn.
By the end of the lesson learners should be able to:
Recall the definition of an acid and alkali.
Identify the end point of a titration
Describe how a titration is completed.
Explain the products of a titration.
By the end of the lesson learners should be able to:
State what’s meant by oxidation.
State what’s meant by reduction.
Describe REDOX reactions by referencing ions and electrons.
Justify if a reaction has caused reduction or oxidation of a specific element.