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work done = force × distance (along the line of action of the force) W = F s force = spring constant × extension F = k e moment of a force = force × distance (normal to direction of force) M = F d pressure = force normal to a surface area of that surface p = F A HT pressure due to a column of liquid =
7 gru 2023 · This is the equation sheet for students taking their Physics, Combined Science: Trilogy and Combined Science: Synergy exams with AQA in 2023. The Top Part of the AQA GCSE Physics Equation Sheet. Source: AQA Website. Each year AQA may make some changes to this document.
Equations to Learn weight = mass × gravitational field strength = work done = force × distance (moved along the line of action of the force) = extension = moment of a force = force distance = pressure = force normal to a surface area of that surface = time = acceleration = change in velocity
moment of a force = force × distance (normal to direction of force) M = F d pressure = force normal to a surface area of t h at surface p = F A v t HT p ressure due to a column of liquid = height of column × density of liquid × gravitational field strength p = h ρ distance travelled = speed × time s = acceleration = c h ange in velocity ...
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.
To calculate distance travelled in physics, you need to know the speed of an object and the amount of time it has been in motion. You can use the formula distance = speed x time to calculate the distance travelled.
It can be written as an equation involving two distances: Stopping distance = Thinking distance + Braking distance. Where: Thinking distance = the distance travelled in the time it takes the driver to react (reaction time) in metres (m) Braking distance = the distance travelled under the braking force in metres (m)
