Search results
Revision notes on Pressure & Forces for the CIE IGCSE Physics syllabus, written by the Physics experts at Save My Exams.
- Pressure in a Liquid
Revision notes on Pressure in a Liquid for the CIE IGCSE...
- Test yourself|Test Yourself
Questions and model answers on Pressure for the CIE IGCSE...
- Log In
Exam paper questions organised by topic and difficulty. Our...
- 2.1 Kinetic Particle Model of Matter
Revision notes on States of Matter for the CIE IGCSE Physics...
- 4.1 Simple Phenomena of Magnetism
Revision notes on Magnetism for the CIE IGCSE Physics...
- 1.1 Physical Quantities & Measurement Techniques
Revision notes on Measurement for the CIE IGCSE Physics...
- 3.1 General Properties of Waves
Revision notes on Features of Waves for the CIE IGCSE...
- 1.6.2 Impulse
Revision notes on Impulse for the CIE IGCSE Physics...
- Pressure in a Liquid
thermal energy for a change of state = mass × specific latent heat. E = m L. For gases: pressure × volume = constant. p V = constant. weight = mass × gravitational field strength. W = m g. work done = force × distance (along the line of action of the force) W = F s. force = spring constant × extension.
Pressure is measured in newtons per square metre (N/m2), but note that it is often given the special name of pascal (Pa). In order to measure how 'spread out' a force is, use this formula.
Revision for AQA Physics GCSE, including summary notes, exam questions by topic and videos for each module.
You will have to learn each of the following equations off by heart for each exam paper, and know when and how to use them. Equation 9 is required for the Higher Tier papers only (as indicated by the symbol HT). EQUATION. WORD EQUATION. SYMBOL EQUATION.
Learn about and revise pressure in liquids, gases and the atmosphere with GCSE Bitesize Physics.
thermal energy for a change of state = mass × specific latent heat. E = m L. For gases: pressure × volume = constant. p V = constant. weight = mass × gravitational field strength. W = m g. work done = force × distance (along the line of action of the force) W = F s. force = spring constant × extension.