I have a variety of resources covering AQA GCSE Science as well as OCR A level Biology, Chemistry and Physics. There are also some PD resources and whole school assemblies.
I have a variety of resources covering AQA GCSE Science as well as OCR A level Biology, Chemistry and Physics. There are also some PD resources and whole school assemblies.
A complete lesson covering the specification points from AQA Biology and Trilogy-translocation.
We have a knowledge rich curriculum so the lesson focuses on the key knowledge required and ensuring that students have remembered this knowledge.
Various activities are included including exam practice, application and a do now
I actively avoid photocopying so all resources are within the PPT itself
All answers provided
A complete lesson revising section 6.4.2 of the AQA Trilogy specification- radiation.
It covers types and propeties of radiation, decay equations, half lives and contamination.
The lesson includes a variety of activities including tables to complete, exam questions and a short multiple choice quiz.
The PPT is designed to reduce copying so all activities are in the presentation.
A complete lesson covering the specification points from AQA Biology and Trilogy-extremophiles.
We have a knowledge rich curriculum so the lesson focuses on the key knowledge required and ensuring that students have remembered this knowledge.
Various activities are included including exam practice, application and a do now
I actively avoid photocopying so all resources are within the PPT itself
All answers provided
A pair of lessons and a worksheet covering sections 5.1.4 a-i of the OCR Physics specification- the gas laws
It covers:
The gas laws
The ideal gas
Kinetic theory
The effect of newtons Laws
Internal energy
PAG 8
The two lessons and the PAG take around 5 hours in total.
All answers are included
I generally try to reduce copying so other than the worksheet all resources are found in the lesson PPT
A project covering all the AQA specifications points from section 6 of Trilogy Physics- waves
It is designed for students to work through at home. There is a mark scheme attached to guide students through how much detail to include for each grade.
It is broken into four mini tasks to support students with planning their work
It is designed to be used with an Educake (or similar) quiz at the end of the week to check learning
A complete lesson covering the specification points from AQA Biology and Trilogy- bacterial diseases.
We have a knowledge rich curriculum so the lesson focuses on the key knowledge required and ensuring that students have remembered this knowledge.
Various activities are included including exam practice and a do now
I actively avoid photocopying so all resources are within the PPT itself
All answers provided
A complete lesson covering the specification points from AQA Biology and Trilogy- viral diseases.
We have a knowledge rich curriculum so the lesson focuses on the key knowledge required and ensuring that students have remembered this knowledge.
Various activities are included including exam practice and a do now
I actively avoid photocopying so all resources are within the PPT itself
All answers provided
This is a complete lesson covering sections 5.1.2 g and h of the OCR chemistry specification- Ka and weak acids. It goes through how to how to calculate Ka for weak acids including the approximations that can be used to make that calculation easier. It also discusses the limitations of those approximations and where they no longer apply.
The lesson includes a starter, full notes, various student led activities and a differentiated summary at the end
All answers are included
I actively try to reduce photocopying, so all of the lesson resources are within the PowerPoint rather than as extra sheets
This is a complete lesson covering sections 5.1.5 a-e of the OCR Biology specification- plant responses to abiotic stress. It starts by considering the need for plants to be able to respond to stress. It then looks at leaf loss and responding to daylight length. The lesson then moves onto abscission and avoiding freezing. The lesson closes by looking at stomatal control and how this coordinated.
The lesson includes a starter, full notes, various student led activities and a differentiated summary at the end.
All answers are included.
I actively try to reduce photocopying, so all of the lesson resources are within the PowerPoint rather than as extra sheets.
This is a complete lesson covering sections 6.4.1 d, e, f, g and h of the OCR Physics specification- the decay equation and half-life. It starts by introducing the decay equation with worked examples before outlining how dice simulation can be used to model nuclear decay. The lesson then moves to looking at activity as an alternative expression for the decay equation. Half-lives are then covered including how to calculate it and how to work it out form a graph. The lesson closes by looking at how age can be assessed using C-14 dating.
The lesson includes a starter, full notes, various student led activities and a differentiated summary at the end.
All answers are included.
I actively try to reduce photocopying, so all of the lesson resources are within the PowerPoint rather than as extra sheets.
A complete lesson covering the specification points from AQA Chemistry and Trilogy-electron structure and the periodic table.
We have a knowledge rich curriculum so the lesson focuses on the key knowledge required and ensuring that students have remembered this knowledge.
Various activities are included including exam practice and a do now
I actively avoid photocopying so all resources are within the PPT itself
All answers provided
A complete lesson teaching students how to use the specific heat capacity equation. It starts by posing a number of questions about pairs of substances being heated leading students to the idea that it relies on the mass of the substance, the type of substance and the amount of energy provided.
It the goes through how to use the equation following the I do, we do, you do model. The calculations are set out using the model I introduced at my school which is designed to support students with rearranging the more difficult equations
The lesson includes a starter, full notes, worked examples and independent student activities.
All answers provided
This is the sixth lesson in OCR A level Biology module 3 section 3.2.1 Electrocardiograms and their role in the cardiac cycle.
This is a complete lesson including a starter, full notes, two worksheets, student activities and a fully differentiated summary activity at the end.
All answers are provided to support teaching and learning
The fourth lesson in OCR specification module 3 section 3.1.1- measuring lung capacity.
It is a complete lesson covering objective e the use of spirometers to measure lung volume. It includes a starter, full notes, various student activities, a worksheet and a differentiated summary.
Includes work deigned to support the delivery of PAG10- investigation using data logger
All answers are provided. The answers to the worksheet are in the PowerPoint.
Some slides include extra information as to the delivery of content / activities and to support teaching
A full lesson covering section 5.1.1.g and h of the OCR Chemistry specification as well as PAG 10.1- the use of rate and concentration graphs especially in clock reactions. It covers what a rate coneration graph is and how they can be used to work out both the order of reactant and the value of k for reactions. It introduces clock reactions and the method and analysis for PAG 10.1
The lesson includes a starter, full notes, student activities and a differentiated summary at the end.
All answers included
A full lesson covering points 4.1.1 f and k of the OCR A level Biology specification- the specific immune response and autoimmune diseases. It covers B and T cells, clonal selection, clonal expansion and differentiation, and the types and roles of B and T cells . It also covers autoimmune diseases including the likely cause and two specific diseases as examples (arthritis and lupus).
The lesson includes a starter, full detailed notes, various independent student activities and a fully differentiated summary at the end.
All answers provided
A full lesson covering specification point 5.1.1 d, e and f- rate concentration graphs. it includes how to collect the data, the use of a colorimeter and the difference between zero and first order reactants. It covers calculating the rate from gradients as well as working out half lives. I also shows how to calculate k using a tangent or the half life.
The lesson includes a starter, full notes, various student activities and a fully differentiated summary at the end.
All answers included
This is the fourth lesson in OCR A Level Biology module 3 section 3.1.2 Heart structure and function.
It is a full lesson including starter, student activities, full notes and a differentiated summary activity at the end.
It also includes instructions for the heart dissection PAG2 and a video as an alternative should practical work not be possible due to Covid-19.
All answers are included
A complete lesson covering section 3.1.3e of the OCR Biology specification- the adaptations to plants living in low and high water areas. It covers the adaptations of xerophytes and hydrophytes using lots of examples and visual support.
The lesson includes an exam question starter, full notes, various student activities and a differentiated summary at the end.
All answers are included
A complete lesson covering section 5.1.1 j and k of the OCR A level Chemistry specification- rates, activation energy and the Arrhenius equation. It also covers the content required for PAG 10.3 including a method and a sample results table.
Although designed for OCR would suit any a level chemistry course.
The lesson introduces the Arrhenius equation, what it is for and how to use it including in its logarithmic form. The includes worked examples and student led activities.
This can either be delivered using theoretical examples or by collecting practical results.
The lesson includes a starter, full notes, various student activities and a differentiated summary at the end.
All answers included.