With over 8 years of teaching experience, I am dedicated to crafting engaging worksheets and activities that will inspire and empower students in their science education journey. Whether you're a teacher looking for resources to enhance your classroom experience or a student seeking to deepen your understanding of scientific concepts, you've come to the right place.
Simple Science is all about making learning fun and accessible that meets the needs for all students in your classroom.
With over 8 years of teaching experience, I am dedicated to crafting engaging worksheets and activities that will inspire and empower students in their science education journey. Whether you're a teacher looking for resources to enhance your classroom experience or a student seeking to deepen your understanding of scientific concepts, you've come to the right place.
Simple Science is all about making learning fun and accessible that meets the needs for all students in your classroom.
Do you find yourself spending too much time searching for the perfect exam question?
Are you frustrated by endless scrolling on ExamPro to locate a question that matches your topic or skill focus?
I’ve created a time-saving, user-friendly resource to solve these challenges!
This Excel tool is designed for AQA GCSE Combined Biology Paper 1 and makes finding exam questions a breeze. With this resource, you can filter questions effortlessly based on:
Exam Series
Command Words
Topic Area
Question Type
Skills Required
Methodological Focus
Data Analysis
Maths Requirements
Specific Mathematical Skills
How does it work?
Once you’ve found the question that fits your criteria, simply copy and paste the unique question code into ExamPro to access it instantly.
This is my first resource in this series, and I’m eager to hear your thoughts. If you find this document helpful and would like me to create similar tools for the rest of the GCSE curriculum, your feedback would be invaluable.
Save time. Focus your teaching. Support your students.
Download now and let me know how it works for you!
Thank you!
Introducing a comprehensive teaching resource tailored for AQA Biology Combined Paper 1, encompassing all essential practicals:
Microscopy
Osmosis
Food Tests
Enzymes
Photosynthesis
Each practical is supported by a suite of 5 meticulously crafted documents, meticulously designed to optimize student understanding and performance:
Worksheet 1: An interactive space inviting students to hone their skills in tackling method-style questions, fostering confidence and mastery.
Worksheet 2 & 3: Offering exemplary sample responses meticulously aligned with marking criteria, accompanied by a structured mark scheme and grid for comprehensive self-assessment and peer review.
Empower your students to excel and attain full credit marks effortlessly on those challenging practical-based questions with these invaluable resources. Elevate their learning experience and academic success today!
Throughout my teaching career, I’ve grappled with the challenge of helping students tackle physics equations comprehensively, ensuring they show all their working out. Despite trying various methods like FIFA, I found students often struggled to remember each component or missed crucial steps in their calculations.
In response, I developed a new approach that has yielded remarkable success in my classroom. Named “HENCH” for lower-ability students and “HEINRCH” for higher-ability ones, this method breaks down each step required for marks in physics calculation questions, ensuring students don’t overlook important elements.
Given the increasing emphasis on thoroughness in exams by boards like AQA, it’s crucial for students to demonstrate their working out at every stage. This method not only helps students achieve full credit but also ensures they develop a deeper understanding of the subject. It’s a simple yet effective tool that equips students with the skills they need to excel.
It would be wonderful to see this method used consistently across many educational platforms to support our students understand how to approach difficult physics equations questions!
The resource contains worked examples of how to use HENCH/HEINRCH and photos of actually exam questions using this method.
Like and rate this resource to help it reach as many physics educators as possible!
Thank you.
This resource contains 2 worksheets for ‘Addition Polymerisation’ in organic chemistry that can be used in class or as homework to enable your students to practice what they have learnt in the classroom.
These resources could used to check prior learning for your students so you can plan accordingly for future lessons. I hope your students find these useful either in the classroom or as revision.
We currently have worksheets for the following topics in Chemistry Paper 2:
Rate and Extent of Chemical Change
Calculating Mean Rates of Reaction
Le Chatelier’s Principle – Equilibrium
Organic Chemistry
Alkenes – Triple
Reactions of Alkenes – Triple
Alcohols - Triple
Carboxylic Acids - Triple
Chemical Analysis
Identification of Common Gases
Identification of Ions - Triple
Flame Emission Spectroscopy – Triple
Please take a small amount of time to review this resource to let other buyers know your thought about these worksheets.
Thank you!
This resource contains 4 worksheets for ‘Atom Economy’ in ‘Quantiative Chemistry’ that can be used in class or as homework to enable your students to practice what they have learnt in the classroom.
Worksheets include:
Using the atom economy equation
Finding Ar of elements
Finding Mr of elements
Balancing equations
These resources could used to check prior learning for your students so you can plan accordingly for future lessons. I hope your students find these useful either in the classroom or as revision.
This resource contains 5 worksheets for ‘Percentage Yield’ in ‘Quantiative Chemistry’ that can be used in class or as homework to enable your students to practice what they have learnt in the classroom.
Worksheets include:
Using the % yield equation
Rearranging the % yield equation
Calculating % yield from balanced symbol equations (HT)
These resources could used to check prior learning for your students so you can plan accordingly for future lessons. I hope your students find these useful either in the classroom or as revision.
This resource contains 5 worksheets for ‘Le Chatelier’s Principle - Equilibrium’ in ‘Rate and Extent of Chemical Change’ that can be used in class or as homework to enable your students to practice what they have learnt in the classroom.
Worksheets include:
Predicting changes to a reaction on changing temperature, concentration and pressure.
These resources could used to check prior learning for your students so you can plan accordingly for future lessons. I hope your students find these useful either in the classroom or as revision.
We currently have worksheets for the following topics in Chemistry Paper 2:
Rate and Extent of Chemical Change
Calculating Mean Rates of Reaction
Le Chatelier’s Principle – Equilibrium
Organic Chemistry
Alkenes – Triple
Reactions of Alkenes – Triple
Alcohols - Triple
Carboxylic Acids - Triple
Chemical Analysis
Identification of Common Gases
Identification of Ions - Triple
Flame Emission Spectroscopy – Triple
Please take a small amount of time to review this resource to let other buyers know your thought about these worksheets.
Thank you!
Are you ready to prepare your student for the 2025 GCSE Science exams with confidence?
Introducing our ultimate resource for exam prediction success!
Want to make your own predictions for the 2025 GCSE Science (combined and triple) exam series, but feeling overwhelmed by the sheer volume of past exam papers to review?
Say goodbye to exam stress with our comprehensive breakdown of GCSE Science exams spanning from 2020 to 2024. We’ve done the heavy lifting for you, meticulously analyzing each exam to identify recurring topics and their significance.
Our unique system assigns each topic a numerical rating, providing insight into its frequency and importance:
1 = Included but with minor emphasis
2 = Some questions touch upon this content
3 = Significant focus on this topic
4 = Heavy emphasis, with questions predominantly centered around it
Armed with this invaluable resource, you’ll gain a clear understanding of which topics are likely to appear in the 2025 exam series. Say hello to exam preparedness and goodbye to last-minute cramming!
Find our individual resources here:
GCSE Biology 2025
GCSE Chemistry 2025
GCSE Physics 2025
Are you ready to prepare your student for the 2025 GCSE Physics exam with confidence?
Introducing our ultimate resource for exam prediction success!
Want to make your own predictions for the 2025 GCSE Physics (combined and triple) exam series, but feeling overwhelmed by the sheer volume of past exam papers to review?
Say goodbye to exam stress with our comprehensive breakdown of GCSE Physics exams spanning from 2020 to 2024. We’ve done the heavy lifting for you, meticulously analyzing each exam to identify recurring topics and their significance.
Our unique system assigns each topic a numerical rating, providing insight into its frequency and importance:
1 = Included but with minor emphasis
2 = Some questions touch upon this content
3 = Significant focus on this topic
4 = Heavy emphasis, with questions predominantly centered around it
Armed with this invaluable resource, you’ll gain a clear understanding of which topics are likely to appear in the 2025 exam series. Say hello to exam preparedness and goodbye to last-minute cramming!
Find our other predictions here:
GCSE Biology 2025
GCSE Chemistry 2025
Are you ready to prepare your student for the 2025 GCSE Chemistry exam with confidence?
Introducing our ultimate resource for exam prediction success!
Want to make your own predictions for the 2025 GCSE Chemistry (combined and triple) exam series, but feeling overwhelmed by the sheer volume of past exam papers to review?
Say goodbye to exam stress with our comprehensive breakdown of GCSE Chemistry exams spanning from 2020 to 2024. We’ve done the heavy lifting for you, meticulously analyzing each exam to identify recurring topics and their significance.
Our unique system assigns each topic a numerical rating, providing insight into its frequency and importance:
1 = Included but with minor emphasis
2 = Some questions touch upon this content
3 = Significant focus on this topic
4 = Heavy emphasis, with questions predominantly centered around it
Armed with this invaluable resource, you’ll gain a clear understanding of which topics are likely to appear in the 2025 exam series. Say hello to exam preparedness and goodbye to last-minute cramming!
Find our other predictions here:
GCSE Biology 2025
GCSE Physics 2025
Are you ready to prepare your student for the 2025 GCSE Biology exam with confidence?
Introducing our ultimate resource for exam prediction success!
Want to make your own predictions for the 2025 GCSE Biology (combined and triple) exam series, but feeling overwhelmed by the sheer volume of past exam papers to review?
Say goodbye to exam stress with our comprehensive breakdown of GCSE Biology exams spanning from 2020 to 2024. We’ve done the heavy lifting for you, meticulously analyzing each exam to identify recurring topics and their significance.
Our unique system assigns each topic a numerical rating, providing insight into its frequency and importance:
1 = Included but with minor emphasis
2 = Some questions touch upon this content
3 = Significant focus on this topic
4 = Heavy emphasis, with questions predominantly centered around it
Armed with this invaluable resource, you’ll gain a clear understanding of which topics are likely to appear in the 2025 exam series. Say hello to exam preparedness and goodbye to last-minute cramming!
Find our other predictions here:
GCSE Chemistry 2023
GCSE Physics 2024
This resource is a simple worksheet that you can use with your class once you have taught the gas constant calculation (gas constant = pressure x volume).
This worksheets helps students to:
Convert units
Simple calculations
Worded calculation questions
Rearranging the equation questions
Application questions
This can also be used as homework to help further embed the knowledge being taught.
We have worksheets for the following physics equations:
Paper 1:
Energy
Kinetic Energy = 0.5 x Mass x (Speed)2)
Elastic Potential Energy = 0.5 x Spring Constant x (Extension)2
Gravitational Potential Energy = Mass x Gravitational Field Strength x Height
Change in Thermal Energy = Mass x Specific Heat Capacity x Temperature Change
Efficiency calculation
Power = Energy Transferred / Time
Power = Work Done / Time
Electricity
Charge Flow = Current x Time
Potential Difference = Current x Resistance
Power = Potential Difference x Current
Power = (Current)2 x Resistance
Energy Transferred = Charge Flow x Potential Difference
Particle Model of Matter
Density = Mass / Volume
Energy for a Change of State = Mass x SLH
Paper 2:
Forces
Weight = Mass x Gravitational Field Strength
Force = Spring Constant x Extension
Speed = Distance / Time
Acceleration = Change in Velocity / Time
Resultant Force = Mass x Acceleration
Work Done = Force x Distance
Momentum = Mass x Velocity
Waves
Period of a Wave = 1 / Frequency
Wavespeed = Frequency x Wavelength
Magnetism
Force = Magnetic Flux Density x Current X Length
Thank you.
This bundle contains 10 worksheets for each of the equations found in the combined AQA GCSE Paper 2 physics topic:
Forces
Weight = Mass x Gravitational Field Strength
Force = Spring Constant x Extension
Speed = Distance / Time
Acceleration = Change in Velocity / Time
Resultant Force = Mass x Acceleration
Work Done = Force x Distance
Momentum = Mass x Velocity
Waves
Period of a Wave = 1 / Frequency
Wavespeed = Frequency x Wavelength
Magnetism
Force = Magnetic Flux Density x Current X Length
Converting units practice
Foundation level questions
Higher level questions
Rearranging the equation questions
Standard Form
Significant Figure
Each worksheet can be used as in lesson task sheets or used as homework.
Answers are also included.
This bundle contains 7 worksheets for each of the equations found in the combined AQA GCSE Energy physics topic:
Kinetic Energy = 0.5 x Mass x (Speed)2)
Elastic Potential Energy = 0.5 x Spring Constant x (Extension)2
Gravitational Potential Energy = Mass x Gravitational Field Strength x Height
Change in Thermal Energy = Mass x Specific Heat Capacity x Temperature Change
Efficiency calculation
Power = Energy Transferred / Time
Power = Work Done / Time
Converting units practice
Foundation level questions
Higher level questions
Rearranging the equation questions
Standard Form
Significant Figure
Each worksheet can be used as in lesson task sheets or used as homework.
Answers are also included.
This resource is a simple worksheet that you can use with your class once you have taught the efficiency calculations.
This worksheets helps students to:
Convert units
Simple calculations
Worded calculation questions
Rearranging the equation questions
Application questions
This can also be used as homework to help further embed the knowledge being taught.
We have worksheets for the following physics equations:
Paper 1:
Energy
Kinetic Energy = 0.5 x Mass x (Speed)2)
Elastic Potential Energy = 0.5 x Spring Constant x (Extension)2
Gravitational Potential Energy = Mass x Gravitational Field Strength x Height
Change in Thermal Energy = Mass x Specific Heat Capacity x Temperature Change
Efficiency calculation
Power = Energy Transferred / Time
Power = Work Done / Time
Electricity
Charge Flow = Current x Time
Potential Difference = Current x Resistance
Power = Potential Difference x Current
Power = (Current)2 x Resistance
Energy Transferred = Charge Flow x Potential Difference
Particle Model of Matter
Density = Mass / Volume
Energy for a Change of State = Mass x SLH
Paper 2:
Forces
Weight = Mass x Gravitational Field Strength
Force = Spring Constant x Extension
Speed = Distance / Time
Acceleration = Change in Velocity / Time
Resultant Force = Mass x Acceleration
Work Done = Force x Distance
Momentum = Mass x Velocity
Waves
Period of a Wave = 1 / Frequency
Wavespeed = Frequency x Wavelength
Magnetism
Force = Magnetic Flux Density x Current X Length
Thank you.
This resource is a simple worksheet that you can use with your class once you have taught the wave speed calculation (wave speed = frequency x wavelength).
This worksheets helps students to:
Convert units
Simple calculations
Worded calculation questions
Rearranging the equation questions
Application questions
This can also be used as homework to help further embed the knowledge being taught.
We have worksheets for the following physics equations:
Paper 1:
Energy
Kinetic Energy = 0.5 x Mass x (Speed)2)
Elastic Potential Energy = 0.5 x Spring Constant x (Extension)2
Gravitational Potential Energy = Mass x Gravitational Field Strength x Height
Change in Thermal Energy = Mass x Specific Heat Capacity x Temperature Change
Efficiency calculation
Power = Energy Transferred / Time
Power = Work Done / Time
Electricity
Charge Flow = Current x Time
Potential Difference = Current x Resistance
Power = Potential Difference x Current
Power = (Current)2 x Resistance
Energy Transferred = Charge Flow x Potential Difference
Particle Model of Matter
Density = Mass / Volume
Energy for a Change of State = Mass x SLH
Paper 2:
Forces
Weight = Mass x Gravitational Field Strength
Force = Spring Constant x Extension
Speed = Distance / Time
Acceleration = Change in Velocity / Time
Resultant Force = Mass x Acceleration
Work Done = Force x Distance
Momentum = Mass x Velocity
Waves
Period of a Wave = 1 / Frequency
Wavespeed = Frequency x Wavelength
Magnetism
Force = Magnetic Flux Density x Current X Length
Thank you.
This resource is a simple worksheet that you can use with your class once you have taught the period of a wave calculation (period of a wave = 1 / frequency)
This worksheets helps students to:
Convert units
Simple calculations
Worded calculation questions
Rearranging the equation questions
Application questions
This can also be used as homework to help further embed the knowledge being taught.
We have worksheets for the following physics equations:
Paper 1:
Energy
Kinetic Energy = 0.5 x Mass x (Speed)2)
Elastic Potential Energy = 0.5 x Spring Constant x (Extension)2
Gravitational Potential Energy = Mass x Gravitational Field Strength x Height
Change in Thermal Energy = Mass x Specific Heat Capacity x Temperature Change
Efficiency calculation
Power = Energy Transferred / Time
Power = Work Done / Time
Electricity
Charge Flow = Current x Time
Potential Difference = Current x Resistance
Power = Potential Difference x Current
Power = (Current)2 x Resistance
Energy Transferred = Charge Flow x Potential Difference
Particle Model of Matter
Density = Mass / Volume
Energy for a Change of State = Mass x SLH
Paper 2:
Forces
Weight = Mass x Gravitational Field Strength
Force = Spring Constant x Extension
Speed = Distance / Time
Acceleration = Change in Velocity / Time
Resultant Force = Mass x Acceleration
Work Done = Force x Distance
Momentum = Mass x Velocity
Waves
Period of a Wave = 1 / Frequency
Wavespeed = Frequency x Wavelength
Magnetism
Force = Magnetic Flux Density x Current X Length
Thank you.
This bundle contains 7 worksheets for each of the equations found in the combined AQA GCSE Forces physics topic:
Energy
Kinetic Energy = 0.5 x Mass x (Speed)2)
Elastic Potential Energy = 0.5 x Spring Constant x (Extension)2
Gravitational Potential Energy = Mass x Gravitational Field Strength x Height
Change in Thermal Energy = Mass x Specific Heat Capacity x Temperature Change
Efficiency calculation
Power = Energy Transferred / Time
Power = Work Done / Time
Electricity
Charge Flow = Current x Time
Potential Difference = Current x Resistance
Power = Potential Difference x Current
Power = (Current)2 x Resistance
Energy Transferred = Charge Flow x Potential Difference
Particle Model of Matter
Density = Mass / Volume
Energy for a Change of State = Mass x SLH
Converting units practice
Foundation level questions
Higher level questions
Rearranging the equation questions
Standard Form
Significant Figure
Each worksheet can be used as in lesson task sheets or used as homework.
Answers are also included.
This resource is a simple worksheet that you can use with your class once you have taught the efficiency calculations.
This worksheets helps students to:
Convert units
Simple calculations
Worded calculation questions
Rearranging the equation questions
Application questions
This can also be used as homework to help further embed the knowledge being taught.
We have worksheets for the following physics equations:
Paper 1:
Energy
Kinetic Energy = 0.5 x Mass x (Speed)2)
Elastic Potential Energy = 0.5 x Spring Constant x (Extension)2
Gravitational Potential Energy = Mass x Gravitational Field Strength x Height
Change in Thermal Energy = Mass x Specific Heat Capacity x Temperature Change
Efficiency calculation
Power = Energy Transferred / Time
Power = Work Done / Time
Electricity
Charge Flow = Current x Time
Potential Difference = Current x Resistance
Power = Potential Difference x Current
Power = (Current)2 x Resistance
Energy Transferred = Charge Flow x Potential Difference
Particle Model of Matter
Density = Mass / Volume
Energy for a Change of State = Mass x SLH
Paper 2:
Forces
Weight = Mass x Gravitational Field Strength
Force = Spring Constant x Extension
Speed = Distance / Time
Acceleration = Change in Velocity / Time
Resultant Force = Mass x Acceleration
Work Done = Force x Distance
Momentum = Mass x Velocity
Waves
Period of a Wave = 1 / Frequency
Wavespeed = Frequency x Wavelength
Magnetism
Force = Magnetic Flux Density x Current X Length
Thank you.
This resource is a simple worksheet that you can use with your class once you have taught the specific latent heat calculation (energy for a change of state = mass x specific latent heat).
This worksheets helps students to:
Convert units
Simple calculations
Worded calculation questions
Rearranging the equation questions
Application questions
This can also be used as homework to help further embed the knowledge being taught.
We have worksheets for the following physics equations:
Paper 1:
Energy
Kinetic Energy = 0.5 x Mass x (Speed)2)
Elastic Potential Energy = 0.5 x Spring Constant x (Extension)2
Gravitational Potential Energy = Mass x Gravitational Field Strength x Height
Change in Thermal Energy = Mass x Specific Heat Capacity x Temperature Change
Efficiency calculation
Power = Energy Transferred / Time
Power = Work Done / Time
Electricity
Charge Flow = Current x Time
Potential Difference = Current x Resistance
Power = Potential Difference x Current
Power = (Current)2 x Resistance
Energy Transferred = Charge Flow x Potential Difference
Particle Model of Matter
Density = Mass / Volume
Energy for a Change of State = Mass x SLH
Paper 2:
Forces
Weight = Mass x Gravitational Field Strength
Force = Spring Constant x Extension
Speed = Distance / Time
Acceleration = Change in Velocity / Time
Resultant Force = Mass x Acceleration
Work Done = Force x Distance
Momentum = Mass x Velocity
Waves
Period of a Wave = 1 / Frequency
Wavespeed = Frequency x Wavelength
Magnetism
Force = Magnetic Flux Density x Current X Length
Thank you.