Erstellt von Nick Stoner
vor mehr als 7 Jahre
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Frage | Antworten |
density = mass / volume | ρ = m/v |
pressure = force / area | P = F/A |
Pressure = density x gravity x height | P = pgh |
Boyles Law | P1 V1 = P2 V2 |
The Pressure Law | P1/T1 = P2/T2 |
Voltage = Current x Resistance | V = IR |
Charge = Current x time | Q = IT |
Power = Current x Voltage | P = IV |
Energy = Current x time x Voltage | E = ItV |
wave speed = frequency x wavelength | v = fλ |
frequency = 1/Time Period | f = 1/T |
Efficiency = | useful energy output / total energy input |
refractive index = sine (angle of incidence) / sine (angle of refraction) | n = sin(i) / sin(r) |
refractive index = 1 / sine (critical angle) | n = 1 / sin (c) |
Work Done = Force x displacement | W = Fd |
Gravitational Potential Energy = mass x gravity x height | GPE = mgh |
Kinetic Energy = 1/2 (mass x speed^2) | KE = 1/2(mv^2) |
Power = Work Done / time | P = W/t |
GPE gained = KE lost | GPE lost = KE gained |
average speed = distance moved / time taken | s = d/t |
acceleration = (change in velocity) / time taken | a = (v - u)/t |
Force = mass x gravity | F = mg |
Weight = mass x gravity | W = mg |
Moment = | Force x perpendicular distance from the pivot |
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