weight = mass × gravitational field strength - W = m g, work done = force × distance - W = F s, force applied to a spring = spring constant × extension - F = k e, distance travelled = speed × time - s = v t, acceleration = change in velocity / time taken - a= ∆ v / t, resultant force = mass × acceleration - F = m a, momentum = mass × velocity - p = m v, kinetic energy = 0.5 × mass × speed2 - Ek= 0.5 m v2, gravitational potential energy = mass × gravitational field strength × height - Ep = m g h, power = energy transferred / time - P= E / t, power = work / time - P = W / t, wave speed = frequency x wavelength - v = f λ, charge flow = current x time - Q = I t, potential difference = current x resistance - V = I R, power = potential difference x current - P = V I, power = current2 x resistance - P = I2 R, energy transferred = power × time - E = P t, energy transferred = charge flow × potential difference - E = Q V, density = mass / volume - ρ = m / V,

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