Physics Formulae

Pregunta	Respuesta
Weight =	mass x gravitational field strength w = m x g
Work done =	force x distance w = f x d
force applied to a string =	spring constant x extension f = k x e
moment of a force =	force x distance m = f x d
pressure =	force normal to a surface ----------------------------------------- area of that surface P = f / a
distance travelled =	speed x time d = s x t
acceleration =	change in velocity -------------------------------- time taken a = Δ v / t
resultant force =	mass x acceleration f = m x a
momentum =	mass x velocity p = m x v
kinetic energy	0.5 x mass x (velocity)² Ek = 1/2 x m x v²
gravitational potential energy =	mass x gravitational field strength x height Ep = m x g x h
elastic potential energy =	1/2 x spring constant x extension² Ee = 1/2 x k x e²
power =	energy transferred -------------------------------- time p = e / t
power =	work done -------------------- time p = w / t
efficiency =	useful output energy transfer ----------------------------------------------- total input energy transfer
efficiency =	useful power out -------------------------- total power in
wave speed =	frequency x wavelength v = f x λ
charge flow =	current x time q = I x t
current =	potential difference x resistance v = I x r
Ohms law	the current through a resistor at a constant temperature is directly proportional to the potential difference across the resistor
power =	potential difference x current p = v x i
power =	(current)² x resistance p = I² x r
energy transferred =	power x time e = p x t
energy transferred =	charge flow x potential difference e = q x v
density =	mass ------------------ volume p = m / v
specific heat capacity definition	The specific heat capacity of a substance is the energy needed to raise the temperature of 1 kg of a substance by 1°C
potential difference definition	potential difference is energy that each coulomb of charge transfers from the battery to the components in the circuit.
frequency =	1 ------------------------- period (seconds)

Weight =

mass x gravitational field strength w = m x g

Work done =

force x distance w = f x d

force applied to a string =

spring constant x extension f = k x e

moment of a force =

force x distance m = f x d

pressure =

force normal to a surface ----------------------------------------- area of that surface P = f / a

distance travelled =

speed x time d = s x t

acceleration =

change in velocity -------------------------------- time taken a = Δ v / t

resultant force =

mass x acceleration f = m x a

momentum =

mass x velocity p = m x v

kinetic energy

0.5 x mass x (velocity)² Ek = 1/2 x m x v²

gravitational potential energy =

mass x gravitational field strength x height Ep = m x g x h

elastic potential energy =

1/2 x spring constant x extension² Ee = 1/2 x k x e²

power =

energy transferred -------------------------------- time p = e / t

power =

work done -------------------- time p = w / t

efficiency =

useful output energy transfer ----------------------------------------------- total input energy transfer

efficiency =

useful power out -------------------------- total power in

wave speed =

frequency x wavelength v = f x λ

charge flow =

current x time q = I x t

current =

potential difference x resistance v = I x r

Ohms law

the current through a resistor at a constant temperature is directly proportional to the potential difference across the resistor

power =

potential difference x current p = v x i

power =

(current)² x resistance p = I² x r

energy transferred =

power x time e = p x t

energy transferred =

charge flow x potential difference e = q x v

density =

mass ------------------ volume p = m / v

specific heat capacity definition

The specific heat capacity of a substance is the energy needed to raise the temperature of 1 kg of a substance by 1°C

potential difference definition

potential difference is energy that each coulomb of charge transfers from the battery to the components in the circuit.

frequency =

1 ------------------------- period (seconds)

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