AQA GCSE Physics Equations

Weight = Mass x Gravitational Field Strength, or W=mg

Weight = Mass / Gravitational Field Strength, or W=m/g

Weight = Gravitational Field Strength / Mass, or W=g/m

Work Done = Force x Distance, or W=Fs

Work Done = Force / Distance, or W=F/s

Work Done = Distance / Force, or W=s/F

Force applied to a Spring = Spring Constant x Extension, or F=ke

Force applied to a Spring = Spring Constant / Extension, or F=k/e

Force applied to a Spring = Extension / Spring Constant, or F=e/k

Moment of a Force = Force x Distance From The Pivot, or M=Fd

Moment of a Force = Force / Distance From The Pivot, or M=F/d

Moment of a Force = Distance / Force From The Pivot, or M=d/F

velocity = time x distance, or v=ts

velocity = distance / time, or v=s/t

velocity = time / distance, or v=t/s

Acceleration = Change in Velocity x Time, or a=Δv x t

Acceleration = Change in Velocity / Time, or a=Δv/t

Acceleration = Time / Change in Velocity, or a=t/Δv

Resultant Force = Mass x Acceleration, or F=ma

Resultant Force = Mass / Acceleration, or F=m/a

Resultant Force = Acceleration / Mass, or F=a/m

Momentum = Mass x Velocity, or p=mv

Momentum = Mass / Velocity, or p=m/v

Momentum = Velocity / Mass, or p=v/m

Kinetic Energy = 0.5 x Mass x Velocity², or E_k=0.5 x m x v²

Kinetic Energy = 0.5 x Mass² x Velocity, or E_k=0.5 x m² x v

Kinetic Energy = 0.5 x Mass² / Velocity, or E_k=0.5 x m² / v

Gravitational Potential Energy = Mass x Gravitational Field Strength x Height, or E_g=mgh

Gravitational Potential Energy = Mass / (Gravitational Field Strength x Height), or E_g=m/(gh)

Gravitational Potential Energy = Mass x Gravitational Field Strength / Height, or E_g=mg/h