Outstanding resources available
-AQA chemistry, biology and physics lessons.
-Differentiated science worksheets compatible with all exam boards.
-Brilliant splat AfL powerpoints.
-Engaging 'Who Wants to be a Millionaire' themed AfL science quizzes.

Outstanding resources available
-AQA chemistry, biology and physics lessons.
-Differentiated science worksheets compatible with all exam boards.
-Brilliant splat AfL powerpoints.
-Engaging 'Who Wants to be a Millionaire' themed AfL science quizzes.

Fantastic pupil led worksheets and activities:
-Includes ALL Chemistry, Biology and Physics equations and calculations.
-Engaging tasks where pupils need to determine the formula, equation and units for each calculation.
-For AQA combined trilogy, combined synergy and triple science.
-Higher tier and triple science formulas clearly highlighted.
-Answers for every equation.
-Units specified for each calculation.
-Can be used a powerpoint activity or printed as worksheets.
-Clearly indicates which equations need to be memorised and which equations are given in the exam.
-Every calculation in B1, B2, C1, C2, P1 and P2 covered!

Six excellently differentiated worksheets.
Engaging activity where pupils have to label the different parts of a transverse and longitudinal wave.
Very well structured and scaffolded according to ability (from SEN to high ability).
Excellent for visual learners.
Very convenient answers slide for self or peer assessment.
Compatible with all physics exam boards (including AQA, Edexcel, OCR).

Fantastic pupil led worksheets and activities:
-Includes ALL physics equations.
-Engaging tasks where pupils need to guess the units and the word equation when given the symbol equation for each formula.
-For AQA combined trilogy, combined synergy and physics only (triple science).
-Higher tier and triple science equations clearly highlighted.
-Answers for every equation.
-Units specified for each equation.
-Can be used a powerpoint activity or printed as worksheets.
-Clearly indicates which equations need to be memorised and which equations are given in the exam.
-Covers the following formulas:
weight = mass × gravitational field strength
work done = force × distance
force = spring constant × extension
moment = force × distance
pressure = force/surface area
distance = speed × time
acceleration = change in velocity / time
force = mass × acceleration
momentum = mass × velocity
kinetic energy = 0.5 × mass × speed2
gravitational potential energy = mass × gravitational field strength × height
power = energy transferred / time
power = work done / time
efficiency = useful energy out / total energy in
wave speed = frequency × wavelength
charge = current × time
potential difference = current × resistance
power = potential difference × current
power = current2 × resistance
energy = power × time
energy = charge × potential difference
density = mass/volume
pressure = height × density × gravitational field strength
final velocity2 – initial velocity2 = 2 × acceleration × distance
force = change in momentum / timeforce = mass x change in velocity / time
elastic potential energy = 0.5 × spring constant × extension2
change in thermal energy = mass × specific heat capacity × temperature change
period = 1 / frequency
magnification = image height / object height
force = magnetic flux density × current × length
thermal energy = mass × specific latent heat
Vp/Vs = np/ns
voltage primary coil × current primary coil = voltage secondary coil × current secondary coil
pressure × volume = constantpressure 1 × volume 1 = pressure 2 × volume 2

Fantastic pupil-led lesson including:
-Engaging starter where pupils needs to guess the 8 types of energy, using diagrams given.
-Starter differentiated for lower ability pupils.
-Thought provoking task where the types of energy need to be defined.
-Excellent think - pair - share task where pupils discuss which objects on the board will heat up faster and why
-Easy to understand video on S.H.C.
-Very convenient example question for the teacher to use prior to main activity.
-Very well structured tasks where pupils use the equation to calculate the specific heat capacity, mass, temperature change or thermal energy change of an object.
-Challenging activity which requires students to convert units before calculating SHC.
-Answers for every activity!
-Emphasis on exam questions.
-Brilliant fill in the blanks summary of the topic.
-Numerous self and peer assessment opportunities.
-Stimulating noughts and crosses plenary.

Complete set of outstanding pupil-led lesson PowerPoints and worksheets which covers the AQA C1 4.1 unit. Includes the following content:
4.1.1.1 Atoms, elements and compounds
4.1.1.2 Mixtures
4.1.1.3 The development of the model of the atom
4.1.1.4 Relative electrical charges of subatomic particles
4.1.1.5 Size and mass of atoms
4.1.1.6 Relative atomic mass
4.1.1.7 Electronic structure
4.1.2.1 The periodic table
4.1.2.2 Development of the periodic table
4.1.2.3 Metals and non-metals
4.1.2.4 Group 0
4.1.2.5 Group 1
4.1.2.6 Group 7
4.1.3.1 Comparison (of transition metals) with Group 1 elements
4.1.3.2 Typical properties (of transition metals)

-The words MOVE in this splat game!!! Making it a more interactive and challenging game.
-Very engaging game on alpha, beta and gamma radiation.
-Excellent AfL resource which can be used with rulers, mini whiteboards or as an in-class test.
-Very versatile. Pupils can be tested individually or as teams.
-Links in well with topics related to isotopes, ionisation, atomic structure.
-Compatible with all physics exam boards (including AQA, Edexcel, OCR).

-Very Engaging quiz on V=IR.
-Excellent AfL resource which can be used with ABCD cards, mini whiteboards or as an in-class test.
-Very versatile. Pupils can be tested individually or as teams.
-Links in well with topics related to electricity, power, charge, circuits, national grid etc.
-Compatible with all physics exam boards (including AQA, Edexcel, OCR).

Outstanding pupil-led lesson including:
-Engaging starter where pupils label the different parts of an electromagnet diagram.
-Useful key facts on solenoids.
-Thought provoking investigation; experimenting the effect of coils of wire on number of paper clips attracted.
-Excellent extension and challenge tasks for more able pupils.
-Easy to understand videos on electromagnetic effects.
-Very convenient questions related to the practical.
-Brilliantly well structured tasks where pupils have to create a method for the experiment.
-Challenging activity for triple science pupils; explaining how an electric bell works.
-Answers for every activity!
-Emphasis on exam techniques.
-Fantastic literacy task which summarises the lesson.
-Numerous self and peer assessment opportunities.
-Stimulating noughts and crosses plenary.

Outstanding pupil-led lesson including:
-Engaging starter where pupils needs to unscramble keywords related to the topic.
-Well structured task requiring students to predict the force exerted by a magnet in various situations.
-Fantastic video explaining the topic.
-Brilliant research task where questions related to magnetism need to be answered.
-Very engaging experiment; the field of a bar magnet has to be discovered using a compass.
-Emphasis on exam tecniques and working scientifically.
-Numerous self and peer assessment opportunities - answers for every activity!
-Amazing Back-to-Back game where one pupil tries to define the keyword on the board and the other pupil has to guess the answer.
-Stimulating noughts and crosses plenary.

Outstanding pupil-led lesson including:
-Literacy starter where pupils read information in order to label the parts of an atom.
-Recap of the charge and mass of sub-atomic particles.
-Very well explained video on what isotopes are and how to calculate the average relative atomic mass of an element - which appears on the periodic table.
-Engaging activity where pupils calculate the number of protons, neutrons and electrons in various isotopes.
-Fill in the blanks task where pupils describe what an isotope is.
-Challenging task where pupils calculate the average relative atomic mass (RAM) of different elements, based on the percentage abundance of its isotopes.
-Numerous self and peer assessment opportunities.
-Stimulating noughts and crosses plenary.
The content in this lesson appears in both C1 and P1

-The words MOVE in this splat game!!! Making it a more interactive and challenging game.
-Very engaging game on solids, liquids and gases and their properties.
-Excellent AfL resource which can be used with rulers, mini whiteboards or as an in-class test.
-Very versatile. Pupils can be tested individually or as teams.
-Can be used as a starter, main, or plenary.
-Links in well with topics related to evaporation, condensation and energy.
-Compatible with all physics exam boards (including AQA, Edexcel, OCR).

Outstanding pupil-led lesson which contains:
- Video: entertaining animation explaining what stopping distance is.
- Starter: engaging match the keywords activity.
-Explanation: excellent visual description of stopping distance.
-Calculations: stopping distance = braking distance + thinking distance.
-Engaging graph activity.
-Thought provoking questions: based on stopping distance calculations.
- Fun AfL tasks: True/False and a back to back game.
-Plenary: stimulating noughts and crosses activity.

Outstanding lesson which includes:
-Brilliant match the keywords starter.
-Plenty of stimulating AfL including a dice activity, Who Wants to be a Millionaire themed multiple choice quiz and a mini whiteboard task.
-Great activity where pupils need to calculate the resistance of a component.
-Thought provoking activity where pupils use the V= I x R formula to calculate the voltage (potential difference), current or resistance of a component.
-Challenging task where pupils need to convert units in order to calculate voltage (potential difference), current or resistance of a component.
-Very engaging noughts and crosses plenary.

-The words move in this splat game!!! Making it a more interactive and challenging game.
-Very engaging game on various types of forces and force related equations.
-Excellent AfL resource which can be used with rulers, mini whiteboards or as an in-class test.
-Very versatile. Pupils can be tested individually or as teams.
-Can be used as a starter, plenary or main activity.
-Links in well with topics related to scalar, vector, f = m x a, f = k x e, w = f x s, contact and non contact forces and many more.
-Compatible with all biology exam boards (including AQA, Edexcel, OCR).

Outstanding lesson including:
-Engaging match the keywords starter.
-Explanation of the difference between mass and weight.
-Easy to understand introduction to formula: weight = mass x gravity (w=mxg).
-Fun numeracy activity where pupils compare their weight on different planets.
-Engaging task where pupils rearrange the formula to calculate weight, mass and gravity.
-Peer assessment and self assessment opportunities
-Challenging task where pupils convert units to calculate weight, mass and gravity
-Stimulating noughts and crosses plenary

Outstanding pupil-led lesson which includes:
-Well structured starter which allows pupils to recall the parts of an atom, whilst reinforcing literacy skills.
-Self assessment tasks after each activity.
-Engaging video on how the nuclear model was accepted by scientists.
-Three thought-provoking questions on the alpha particle scattering experiment.
-Fun activity where pupils have to sort statements regarding the nuclear model and the plum pudding model into the correct column.
-Stimulating noughts and crosses plenary.
*According to the AQA spec, the exact same content is part of the P1 and C1 units.

-The words MOVE in this splat game!!! Making it a more interactive and challenging game.
-Very engaging game on the transfer/loss of heat energy, conductors and insulators.
-Excellent AfL resource which can be used with rulers, mini whiteboards or as an in-class test.
-Very versatile. Pupils can be tested individually or as teams.
-Can be used as a starter, main, or plenary.
-Links in well with topics related to generating electricity.
-Compatible with all physics exam boards (including AQA, Edexcel, OCR).

-The words MOVE in this splat game!!! Making it a more interactive and challenging game.
-Very engaging game on electrical circuits, components, voltage, current, work done, charge, resistance and power.
-Excellent AfL resource which can be used with rulers, mini whiteboards or as an in-class test.
-Very versatile. Pupils can be tested individually or as teams.
-Can be used as a starter, main, or plenary.
-Links in well with topics related to the national grid and mains electricity.
-Compatible with all physics exam boards (including AQA, Edexcel, OCR).

-The words MOVE in this splat game!!! Making it a more interactive and challenging game.
-Very engaging game on the uses and dangers of the waves in electromagnetic spectrum.
-Excellent AfL resource which can be used with rulers, mini whiteboards or as an in-class test.
-Very versatile. Pupils can be tested individually or as teams.
-Can be used as a starter, main, or plenary.
-Links in well with topics related to longitudinal and transverse waves.
-Compatible with all physics exam boards (including AQA, Edexcel, OCR).

Very engaging lesson which includes:
-Visual starter on the parts of a wave. Worksheet activity incorporating literacy.
-Animated video on waves. Very good for visual learners.
- Easy to understand explanation on how to calculate the frequency, wavelength and velocity of a wave.
- Well structured questions on calculating a wave’s frequency, wavelength and velocity.
- Very engaging AFL quiz on calculating wave speed (Who wants to be a millionaire theme)
- Challenging questions where pupils need to convert units in order to calculate a wave’s speed.
- Stimulating plenary involving rolling of dice and questions on calculating a wave’s frequency.
- Plenty of peer and self assessment opportunities.