A specialist science shop featuring hands-on and minds-on activities all designed to promote both thinking and learning.
I'm a very experienced teacher with advanced skills teacher (AST) and specialist leader of education (SLE) accreditation under my belt.
A specialist science shop featuring hands-on and minds-on activities all designed to promote both thinking and learning.
I'm a very experienced teacher with advanced skills teacher (AST) and specialist leader of education (SLE) accreditation under my belt.
These are great exam practise for higher students once they are familiar with how to use the equations in the specification. Each question required a multi-step calculation and often more than one equation is needed.
There are two booklets; one using the equations needed in paper one and the other those in paper two.
Fully worked answers are also provided which can be projected on to a board for use by the whole class.
Here you will find two booklets that give students practise at carrying out calculations using each of the equations that feature in the AQA GCSE physics specification(first examined 2018). Based on questions in the exam papers, students are asked to recall particular equations and then re-arrange them and use them.
To make them more helpful for revision purposes there is a booklet for the equations required for paper one and a separate booklet for paper two. Answers are also provided.
A lesson on the important difference between cause and correlation. The teacher notes give details of examples where there is a strong correlation but no causal link, examples which can be hard to think of on the spot! The presentation is based around air pollution and helps students to understand the key ideas. It can be followed up with the worksheet which includes many examples. For each example students sort the three options given into correlation, cause or no link
This set of notes has been put together as a 12 page A4 booklet, organised for paper 1 and paper 2
For each required practical there’s a simple diagram, a list of equipment and a step by step method and hints about using the data collected; hopefully that’s everything a student may need to recall for the exams.
This set of resources provides teachers and students with helpful summaries of the equations they will need to learn and use when sitting the AQA GCSE physics exams.
Helpfully, the equations are separated by the exam paper in which they will feature. The simplified sheet is less wordy and more suitable for foundation students.
The equation cue cards are designed for student use and will help them not only learn the equations but also how to re-arrange them. There are some student instructions on the final card.
The sheets will also be of use to those sitting the double science exams as they can be easily edited to remove the few equations not needed by these students.
“Cut out and keep” credit card size revision cards to help students learn the equations that will be needed for the exams. The equations have been stripped down to a minimum to make them simpler to learn and remember.
There’s one for paper one and another for paper two. Provided as pdfs and in word so that they can be edited if desired.
This lovely simulation, developed in excel, allows students to investigate the effect on current and voltage of different circuit components. Click on the tabs at the bottom of the page to choose your component then use the sliders to adjust the supply voltage/resistance etc.
There are accompanying worksheet to go with each component.
This activity is great current vs voltage graphs and works well either as a preliminary to practical work or to reinforce practical work.
Don't forget to click on "enable" when you open up the spreadsheet
Use this simulation, written in excel, to help your students to get to grips with calculations involving transformers. Use the sliders to adjust the input voltage or the number of turns in the primary and secondary coils to investigate what happens to the output voltage. This can be used by students working individually but it is probably best used for whole class teaching.
When opening the spreadsheet, don't forget to click "enable content".
The simulation is accompanied by a worksheet where students work through a series of calculations. Answers are also provided.
This will really help students understand the relationships between the different electrical quantities. Most students will need some teacher support to complete the double sided sheet and it's a great stretch and challenge activity for more able students.
It would serve as a good introduction to circuit electricity at A level, allowing students to identify and correct their own misconceptions.
Those teaching outside their area of specialism are likely to find it very helpful to clarify their own understanding of electricity.
This is a fundamental area of science that students really need to understand well. There are two lots of sorting to complete in the Venn diagram activity along with a student worksheet to consolidate the key ideas. It's accompanied by a teacher sheet providing details of demonstrations designed to bring home the properties of gases.
A suite of resources that give ideas and instructions on active ways of teaching; day and night, seasons and phases of the moon. The set of teacher notes are accompanied by a template and instructions to make a working paper model of the Earth, Sun and Moon and a worksheet to help reinforce key ideas about the phases of the Moon.
This piece of practical work turns making a mug of tea into a quantitative activity. There are teacher notes along with an equipment list. The student worksheet provides a structure for students to record their measurements and support as they work through their calculations along with some more stretching questions for more able students.
Based around the sinking of the Titanic, here are three linked activities designed to support students as they think through the key concepts required to understand floating and sinking. Students will examine various hypotheses about the sinking of Titanic and asses their plausibility before putting together a scientific explanation of floating. The teacher notes provide guidance on how to differentiate the activities for less able students.
This set of activities provides teacher notes on ideas about helping students to understand exactly what speed means and goes on to suggest how to introduce the use of the equation for speed. There is a student worksheet to reinforce the key ideas about speed. A follow on activity with a set of animal pictures allows students to calculate the speeds of a wide variety of animals.
This activity is designed to allow the whole class to work together to produce one enormous graph. It provides an interesting space context for students to hone their graphical skills. Also included is a set of domino cards about the universe which complement to activity and can be completed by early finishers.
A great simulation to find thinking distance, breaking distance and stopping distance when you change the road conditions or the state of the driver. Use the sliders on the spreadsheet to change , for example the amount of alcohol that has been drunk or the degree of wear on the tyres. The activity can be run by students working individually or led by the teacher with the whole class. There is a worksheet for students to complete to help them develop their thinking. The simulation is also provided on an older version of excel (19917)
This model was developed to teach the AQA astrophyics option at A level. The teacher sheet gives instructions for how to build a "working" model of a CCD in a couple of minutes from simple equipment you will already have. There is a follow up cut and stick worksheet for students to complete which consolidates the key ideas
There are two activities here. The first introduces the idea of temperature by encouraging students to compare the temperatures of different objects in the universe. The follow up experiment investigates where the energy from a hot object goes and helps students to think through ideas about energy transfer.
The circus of experiments that students carry out is accompanied by a worksheet for them to record their thinking. The activity is designed to help students think more critically about ideas of heat and energy transfer.
Combining ideas about scale and ratio with earth science, this pair of activities gives instructions for how to make a 3D model of Earth that can be sliced open to see its inner structure. It is followed up with a paper exercise where students make a scale drawing of our planet. The worksheet includes some extension questions for more able students.