Physics formulae

Descripción

GCSE Physics Fichas sobre Physics formulae, creado por Lily Ferns el 02/10/2017.
Lily Ferns
Fichas por Lily Ferns, actualizado hace más de 1 año
Lily Ferns
Creado por Lily Ferns hace alrededor de 7 años
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Resumen del Recurso

Pregunta Respuesta
Gas law Pressure x volume = constant
Charge and current charge = current x time
Thermal capacity Thermal capacity = mass x specific heat capacity
Power Power = current x voltage
Critical angle N = 1 / Sin(c)
Changing state energy Energy change = mass x latent heat
Wave speed Wave speed = frequency x wavelength
Ohms law Voltage = current x resistance
Pressure Pressure = force / area
Specific heat capacity Thermal energy change = mass x specific heat capacity x change in temperature
Snells law N = Sin(i) / Sin(r)
Fluid pressure Pressure = density x gravity x height
Half life Time taken for half a radioactive sample to decay
Gravitational potential energy Gravitational potential energy = mass x gravity x height
Hooke's law Force = Spring constant x extension
Impulse Change in momentum = Force x time
Range of human hearing 20 to 20,000 Hz
Distance time graph area Area = distance travelled
Diffraction The spreading out of waves as the pass through a gap
Speed of light 3 x 10 to the power of 8 m/s
Mechanical power Power = Energy / time
Electrical energy Energy = current x voltage x time
Transformer equation (Primary voltage / Secondary voltage) = (Primary no of coils / Secondary no of coils)
100% efficient transformer equation Current (P) x Voltage (P) = Current (S) x Voltage(S)
Distance time graph gradient Gradient = Velocity
Average speed Speed = Distance / Time
Velocity time graph gradient Gradient = Acceleration
Kinetic energy Kinetic energy = 1/2 x mass x velocity squared
Newton's second law Force = Mass x Acceleration
Acceleration Acceleration = Change in velocity / time
Efficiency Efficiency = Useful output x 100% / Total energy input
Turning moment Moment = Force x perpendicular distance
Weight Weight = mass x gravity
Work done Work done = Force x Distance
Momentum Momentum = mass x velocity
Density Density = Mass x volume
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