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physics (מושגים (position (start point, finish point), velocity, time (how…
physics
מושגים
acceleration
velocity
position
start point
finish point
time
how long
fundamental forces
classic
Thermodynamics
C
Classical mechanics
C
Electromagnetism
C
electromagnetic force
theory
classical electromagnetism
equations
Maxwell's
low
Lorentz force law
units
Q
electric of quantity
coulom
C
A*s
I
electric current
ampere
A
A(=W/V=C/s)
J
electric current density
ampere per square metre
A/M^2
A*M^(-2)
U, ΔV, Δφ; E
POTENTIAL DIFFERENCE / ELECTROMOTIVE FORCE
volt
V
J/C = kg
m^(2)
s^(-3)*A^(-1)
R; Z; X
electric resistance; impedance; reactance
ohm
Ω
V/A = kf
m^2
s^(-3)*A^(-2)
ρ
resistivity
ohm metre
Ω⋅m
kg⋅m^3⋅s^(−3)⋅A^(−2)
C
capacitance
farad
F
C/V = kg^(−1)⋅m^(−2)⋅A^2⋅s^4
P
electric power
watt
W
V⋅A = kg⋅m^2⋅s^(−3)
ΦE
electric flux
E
D
ε
χe
G; Y; B
κ, γ, σ
B
Φ, ΦM, ΦB
H
L,M
μ
X
Equations
kinematic
demention
one
cool
modern
Electromagnetism
units
X
μ
L,M
H
Φ, ΦM, ΦB
B
κ, γ, σ
G; Y; B
χe
ε
D
E
ΦE
electric flux
P
electric power
watt
W
V⋅A = kg⋅m^2⋅s^(−3)
C
capacitance
farad
F
C/V = kg^(−1)⋅m^(−2)⋅A^2⋅s^4
ρ
resistivity
ohm metre
Ω⋅m
kg⋅m^3⋅s^(−3)⋅A^(−2)
R; Z; X
electric resistance; impedance; reactance
ohm
Ω
V/A = kf
m^2
s^(-3)*A^(-2)
U, ΔV, Δφ; E
POTENTIAL DIFFERENCE / ELECTROMOTIVE FORCE
volt
V
J/C = kg
m^(2)
s^(-3)*A^(-1)
J
electric current density
ampere per square metre
A/M^2
A*M^(-2)
I
electric current
ampere
A
A(=W/V=C/s)
Q
electric of quantity
coulom
C
A*s
low
Lorentz force law
equations
Maxwell's
theory
classical electromagnetism
electromagnetic force
C