I'm an A-Level physics teacher. In my opinion independent learning is the key to success so I focus a lot of effort into making resources to help students learn physics independently. A lot of what I make is available for free on YouTube. My website has links to everything.
I'm starting to offer my free downloads on https://wonkylogic.co/a-level-physics-hq which does not require a log in to download.
I'm an A-Level physics teacher. In my opinion independent learning is the key to success so I focus a lot of effort into making resources to help students learn physics independently. A lot of what I make is available for free on YouTube. My website has links to everything.
I'm starting to offer my free downloads on https://wonkylogic.co/a-level-physics-hq which does not require a log in to download.
Copy of the spreadsheet I used to analyse the experiment to determine the acceleration of free fall in this video.
The spreadsheet automatically calculates final velocity of the weighted card from inputted electronic timer readings. The data plots are added to a carefully formatted graph. A line of best fit is automatically plotted. The gradient and y-intercept of the line are automatically calculated from the data plots and the value of acceleration of free fall is calculated from the gradient. This spreadsheet is perfect for rapidly analysing experimental data.
This is a Numbers spreadsheet. It is possible to convert Numbers spreadsheets to Excel files but I cannot guarantee an easy to use output since the tables may be converted to separate worksheets in the Excel file.
Suitable for most A-Level Physics specifications.
A worksheet to enable students to analyse experimental data from the experiment to determine the acceleration of free fall with a light gate. I’ve made a video of the experiment here youtu.be/yKVjlnSOu7s (available from 20 Aug). The data collected in the video can be used to complete a table, plot a graph and answer a series of analysis questions in order to determine the acceleration of free fall.
There are links from the PDF directly to the relevant part of the data collection in the video for anyone using the worksheet electronically. There are solutions at the end.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
A detailed presentation to aid explanation of the role of radiation intensity in the photoelectric effect for various photon frequencies relative to the threshold frequency of the metal. Students often misunderstand the inability of increased intensity to trigger the photoelectric effect and therefore believe it has no role. This presentation is a visual aid to help the teacher show that it has a role in controlling the number of photons arriving per unit time.
This presentation compares low and high intensity sources of red and green light with low and high intensity blue light (where green and blue light have frequencies above the threshold frequency). The effect of intensity on the number of photons arriving at the metal is made clear and intensity is clearly distinguished from photon energy.
This is a Keynote presentation (macOS, iPadOS and iOS).
Useful for all A-Level physics specifications.
The photoelectric effect is an important experiment in physics that proves that light behaves like a particle, it was a founding experiment for quantum theory. Einstein won his Nobel prize for his work on explaining the photoelectric effect.
A simple presentation to aid explanation of the role of radiation intensity in the photoelectric effect once the threshold frequency of the metal has been exceeded. Students often misunderstand the inability of increased intensity to trigger the photoelectric effect and therefore believe it has no role. This presentation is a visual aid to help the teacher show that it has a role in controlling the number of photons arriving per unit time.
This presentation compares a source of low intensity blue with high intensity blue light (where blue light has a frequency above the threshold frequency).
This is a Keynote presentation (macOS, iPadOS and iOS).
Useful for all A-Level physics specifications.
The photoelectric effect is an important experiment in physics that proves that light behaves like a particle, it was a founding experiment for quantum theory. Einstein won his Nobel prize for his work on explaining the photoelectric effect.
Copy of the spreadsheet I used to analyse the experiment to estimate Planck’s constant in this video.
The spreadsheet automatically calculates photon energy from inputted potential difference readings. The data plots are added to a carefully formatted graph. A line of best fit is automatically plotted. The gradient and y-intercept of the line are automatically calculated from the data plots and the estimate for the Planck constant is calculated from the gradient. This spreadsheet is perfect for rapidly analysing experimental data.
This is a Numbers spreadsheet. It is possible to convert Numbers spreadsheets to Excel files but I cannot guarantee an easy to use output since the tables may be converted to separate worksheets in the Excel file.
Suitable for most A-Level Physics specifications.
A worksheet to enable students to analyse experimental data from the experiment to estimate Planck’s constant with LEDs. I’ve made a video of the experiment here youtu.be/JZ7XW-BfPa4 (live on 22 June 2020). The data collected in the video can be used to complete a table and graph and answer a series of questions to analyse the graph in order to estsimate h.
There are links from the PDF directly to the relevant part of the data collection in the video for anyone using the worksheet electronically. There are solutions at the end.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
Help your students practice recall of graph shapes and features across most physics subject areas (A-level and equivalent). Included is a PDF that has blank graph grids and labelled axes for students to draw onto. The introduction and solutions are included in the PDF document; printing them is optional.
A differentiated version of this activity is available for purchase with included Keynote¹ slideshow introduction and solutions (the solutions are animated to give the option of an interactive activity with your students - draw the solution, compare the textbook answer and discuss).
Graphs included in this activity:
Radioactive Decay
Capacitor Decay
Binding Energy
Binding Energy per Nucleon
Gravitational Field Strength v. Distance
Filament Bulb I-V Characteristic
Gravitational field strength v. 1/distance²
Stress-Strain Profile of Copper
R-T Relationship for Metal Conductor
Photoelectric Effect
¹ Keynote is presentation software that works on Macs, iOS and iPadOS devices.
Help your students practice recall of graph shapes and features across most physics subject areas (A-level and equivalent). This activity is differentiated. Included is a PDF that has two versions of blank graph grids for students to draw onto. The first version has no help beyond quantities labelled on the axes. The +1 version has some additional guidance included on the axes / grid (such as intercepts or markers). For more guidance there is a page of all graph shapes that students can select from.
Also included in this resource is a Keynote¹ slideshow that has an introduction and solutions. The introduction and solutions are included in the PDF document; printing them is optional. The slideshow solutions show the same grids empty to begin with and the lines are animated. This gives the option of an interactive activity with your students in which you can select students to draw their solution, compare to the textbook answer and discuss any differences (interactive whiteboard or similar required).
A non-differentiated version of this activity without slideshow is available for free.
Graphs included in this activity:
Radioactive Decay
Capacitor Decay
Binding Energy
Binding Energy per Nucleon
Gravitational Field Strength v. Distance
Filament Bulb I-V Characteristic
Gravitational field strength v. 1/distance²
Stress-Strain Profile of Copper
R-T Relationship for Metal Conductor
Photoelectric Effect
¹ Keynote is presentation software that works on Macs, iOS and iPadOS devices. I can’t guarantee a good export to PowerPoint so I have not included that option.
Evaluate a set of experimental data obtained during an experiment to determine the specific heat capacities of a copper and aluminium block (video of experiment). Tasks include:
calculating the absolute and percentage experimental uncertainty in quantities,
application of uncertainty rules,
converting a percentage uncertainty into an absolute uncertainty
comparing a percentage difference and experimental uncertainty.
Full solutions are included. This is an excellent follow up exercise to the Specific Heat Capacity Experiment Worksheet.
Perfect for A-level physics students on any specification.
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This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.**
Evaluate a set of experimental data obtained during an experiment to determine the Young’s Modulus of a copper wire. Tasks include:
calculating the absolute and percentage experimental uncertainty in quantities,
application of uncertainty rules,
drawing error bars,
drawing lines of worst acceptable fit,
determining uncertainty in a gradient value, and
converting a percentage uncertainty into an absolute uncertainty.
Full solutions are included. This is an excellent follow up exercise to the Young’s Modulus Experiment Worksheet. The raw measurements are related but slightly different to make for a better experience in this evaluation worksheet.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
Update 18/11/21: Contrast of graph grid lines increased
A worksheet to enable students to analyse experimental data from the experiment to investigate the relationship between gas pressure and volume (Boyle’s law). I’ve made a video of the experiment here youtu.be/J9IoAp51_7w . The data collected in the video can be used to complete a table, plot a graph and answer a series of analysis questions in order to empirically determine the relationship between gas pressure and volume.
There are links from the PDF directly to the relevant part of the data collection in the video for anyone using the worksheet electronically. There are solutions at the end.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
A worksheet to enable students to analyse experimental data from the experiment to investigate the pressure law. I’ve made a video of the experiment here youtu.be/2L_ncrFyBy4 . The data collected in the video can be used to complete a table, plot a graph and answer a series of analysis questions in order to empirically determine the relationship between gas pressure and temperature.
There are links from the PDF directly to the relevant part of the data collection in the video for anyone using the worksheet electronically. There are solutions at the end.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
A worksheet to enable students to analyse experimental data from the current balance experiment to determine the magnetic flux density of a major magnet. I’ve made a video of the experiment here youtu.be/N4H1X4i2OZ4. The data collected in the video can be used to complete a table and graph and answer a series of questions to analyse the graph in order to determine B for the magnet.
There are links from the PDF directly to the relevant part of the data collection in the video for anyone using the worksheet electronically. There are solutions at the end.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
A worksheet to enable students to analyse experimental data from the specific heat capacity experiment. I’ve made a video of the experiment here youtu.be/CJTfyD7aiL4 . The data collected in the video can be used to complete a table and answer a series of calculation questions in order to determine c for copper and aluminium. Copper and aluminium are handled on separate pages.
There are links from the PDF directly to the relevant part of the data collection in the video for anyone using the worksheet electronically. There are solutions at the end. An excellent extension activity is the heat capacity evaluation worksheet.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
A worksheet to enable students to analyse experimental data from the resistivity experiment. I’ve made a video of the experiment here youtu.be/0yDtMHlwG3U . The data collected in the video can be used to complete a table and graph. Then the graph can be analysed to determine ρ.
There are links from the PDF directly to the relevant part of the data collection in the video for anyone using the worksheet electronically. There are solutions at the end.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
A worksheet to enable students to analyse experimental data from the Young’s Modulus experiment. I’ve made a video of the experiment here youtu.be/xASsYJo3zrM . The data collected in the video can be used to complete a table and graph. Then the graph can be analysed to determine E.
There are links from the PDF directly to the relevant part of the data collection in the video for anyone using the worksheet electronically. There are solutions at the end.
Perfect for A-level physics students on any specification.
This worksheet is ideal for home learning since it has an accompanying video explanation of the experiment, the analysis of results and solutions to all questions are included in the document.
Take your Google Classroom to the next level with a cool science-themed animated banner!
Seven colours of the visible spectrum glide into view with wavelengths displayed. Sadly you’ll need to download it before you see the animation.
An I ♥ Science Resource by Wonky Logic
This is the spreadsheet I used for analysing data collected to estimate the surface temperature of the Sun.
Data collection video: https://youtu.be/y59VjLKjg64
Analysis video: https://youtu.be/W2TYGy6lZcQ
The spreadsheet is made in Numbers - Apple’s spreadsheet software - which works on Macs, iPads and iPhones.
This experiment covers concepts in the OCR physics A, AQA and Edexcel A-level physics specifications.
This spreadsheet can be used to analyse the data collected in the CIE Practical Skills 1 (2016) task. I have a video of the data collection for this task and its analysis.
This spreadsheet has been created in Numbers (Apple’s spreadsheet software), it works on macOS, iOS, and iPadOS devices.
Graph grids for digital graph work in PDF format - use with iPads / tablets and Apple Pencils / styluses etc.
The grids available are 8 × 12 and 10 × 14 large squares - each large square being 10 × 10 small squares. Can be used in portrait or landscape.