Please enable JavaScript.
Coggle requires JavaScript to display documents.
Physics Equations (A = (V-U) / T (V = Final velocity, U = Initial Velocity…
Physics Equations
A = (V-U) / T
V = Final velocity
U = Initial Velocity
A = Acceleration
T = Time
E = M x G x H
M = Mass
G = Gravitational field strength
E = Gravitational potential energy
H = Height
(V x V) - (U x U) = 2 x A x S
U = Initial velocity
A = Acceleration
V = Final velocity
S = Distance
ΔE = M x C x Δθ
M = Mass
C = Specific heat capacity
ΔE = Change in thermal energy
Δθ = Temperature change
F = B x I x L
B = Magnetic flux density
i = Current
F = Force on a conductor
L = Length
V x I = Vp x Ip
I = Current in primary coil
Vp = Potential difference across secondary coil
V = Potential difference across primary coil
Ip = Current in secondary coil
W = M x G
M = Mass
G = Gravitational field strength
W = Weight
W = F x S
F = Force
S = Distance
W = Work done
F = K x E
K = Spring constant
E = Extension
F = Force applied to spring
S = V x T
V = Speed
T = Time
S = Distance
F = M x A
M = Mass
A = Acceleration
F = Resistant force
P = M x V
M = Mass
V = Velocity
P= Momentum
E = 0.5 x M x (V x V)
M = Mass
V = Speed
E = Kinetic energy
P = E / T
E = Emergy transferred
T = Time
P = Power
P = W / T
W = Word done
T= Time
P = Power
V = F x λ
F = Frequency
λ = Wave length
V = Wave speed
Q = I x T
I = Current
T = Time
Q = Charge Flow
V = I x R
I = Current
V = Potential difference
R = Resistance
P = V x I
V = Potential difference
I = Current
P = Power
P = (I x I) x R
I = Current
R = Resistance
P = Power
E = Q x V
Q = Charge Flow
V = Potential difference
E = Energy transferred
ρ = M / V
M = Mass
V = Volume
ρ = Density
Ee = 0.5 x K x (E x E)
K = Spring constant
E = Extension
Ee = Elastic potential energy
E = M x L
M = Mass
L = Specific latent heat
E = Thermal energy for change of state