List of Physical Quantities (with Symbols, SI Unit, and Dimension)

List of Physical Quantities

A physical quantity is a physical property of a phenomenon, object, or substance that can be measured. This list contains two tables. First table lists the fundamental or base quantities defined in SI system, whereas second table lists the physical quantities which can be expressed in terms of base quantities.

Base quantity	Symbol	SI unit	Dimension
Length	l	metre (m)	L
Mass	m	kilogram (kg)	M
Time	t	second (s)	T
Electric current	I	ampere (A)	I
Temperature	T	kelvin (K)	Θ
Amount of substance	n	mole (mol)	N
Luminous intensity	L	candela (cd)	J

Derived quantity	Symbol	SI unit	Dimension
Acceleration	a	m s^-2	L T⁻²
Angular acceleration	α	rad s^-2	T^-2
Angular momentum	L	kg m² s^-1	M L² T^-1
Angular speed (or angular velocity)	ω	rad s^-1	T^-1
Area	A	m²	L²
Area density	ρA	kg m^-2	M L^-2
Capacitance	C	farad (F = A² s⁴ kg^-1 m−2)	M^-1 L^-2 T⁴ I²
Catalytic activity		katal (kat = mol s^-1)	T^-1 N
Chemical potential	μ	J mol^-1	M L² T^-2 N^-1
Current density	J →	A m−2	L^-2 I
Dynamic viscosity	η	Pa s	M L^-1 T^-1
Electric charge	Q	coulomb (C = A s)	T I
Electric displacement	D	C m−2	L^-2T I
Electric field strength	E→	V m^-1	M L T^-3 I^-1
Electrical conductance	G	siemens (S = A² s³ kg^-1 m−2)	M^-1 L−2 T³ I2
Electrical conductivity	σ	S m^-1	M^-1 L^-3 T³ I2
Electric potential	V	volt (V = kg M² A^-1 s^-3)	M L² T^-3 I^-1
Electrical resistance	R	ohm (Ω = kg M² A^-2 s^-3)	M L² T^-3 I^-2
Electrical resistivity	ρ	ohm metre (Ω⋅m = kg M³ A^-2 s^-3)	M L³ T^-3 I^-2
Energy	E	joule (J = kg m² s^-2)	M L² T^-2
Energy density	ρE	J m^-3	M L^-1 T^-2
Entropy	S	J K^-1	M L² T^-2 Θ^-1
Force	F→	newton (N = kg m s−2)	M L T^-2
Frequency	f	hertz (Hz = s^-1)	T^-1
Fuel efficiency			L−2
Half-life	t1/2	s	T
Heat	Q	joule (J)	M L² T^-2
Heat capacity	Cp	J K^-1	M L² T^-2 Θ^-1
Heat flux density	ϕQ	W m−2	M T^-3
Illuminance	Ev	lux (lx = cd sr m^-2)	L−2 J
Impedance	Z	ohm (Ω = kg M² A^-2 s^-3)	M L² T^-3 I^-2
Impulse	J	newton second (N⋅s = kg m s^-1)	M L T^-1
Inductance	L	henry (H = kg M² A^-2 s−2)	M L² T^-2 I^-2
Irradiance	E	W m^-2	M T^-3
Intensity	I	W m^-2	M T^-3
Jerk	j→	m s^-3	L T^-3
Luminous flux (or luminous power)	F	lumen (lm = cd sr)	J
Mach number (or mach)	M	unitless	1
Magnetic field strength	H	A m^-1	L^-1 I
Magnetic flux	Φ	weber (Wb = kg M² A^-1 s−2)	M L² T^-2 I^-1
Magnetic flux density	B	tesla (T = kg A^-1 s−2)	M T^-2 I^-1
Magnetization	M	A m^-1	L^-1 I
Mass fraction	x	kg/kg	1
(Mass) Density (or volume density)	ρ	kg m^-3	M L^-3
Mean lifetime	τ	s	T
Molar concentration	C	mol m^-3	L^-3 N
Molar energy		J mol^-1	M L² T^-2 N^-1
Molar entropy		J K^-1 mol^-1	M L² T^-2 Θ^-1 N^-1
Molar heat capacity	c	J K^-1 mol^-1	M L² T^-2 Θ^-1 N^-1
Moment of inertia	I	kg m²	M L²
Momentum	p→	N s	M L T^-1
Permeability	μ	H m^-1	M L T^-2 I^-2
Permittivity	ε	F m^-1	M^-1 L^-3 T⁴ I²
Plane angle	θ	radian (rad)	1
Power	P	watt (W)	M L² T^-3
Pressure	p	pascal (Pa = kg m^-1 s−2)	M L^-1 T^-2
(Radioactive) Activity	A	becquerel (Bq = s^-1)	T^-1
Radiance	ys	W m−2 sr^-1	M T^-3
Refractive index	n	unitless	1
Solid angle	Ω	steradian (sr)	1
Speed	v	m s^-1	L T^-1
Specific energy		J kg^-1	L² T^-2
Specific heat capacity	c	J kg^-1 K^-1	L² T^-2 Θ^-1
Specific volume	v	M³ kg^-1	M^-1 L³
Strain	ε	unitless	1
Stress	σ	Pa	M L^-1 T^-2
Surface tension	γ	N m^-1 or J m−2	M T^-2
Thermal conductivity	k	W m^-1 K^-1	M L T^-3 Θ^-1
Torque	τ	newton metre (N m)	M L² T^-2
Velocity	v→	m s^-1	L T^-1
Volume	V	m³	L³
Wavelength	λ	m	L
Wavenumber	k	m^-1	L^-1
Weight	w	newton (N = kg m s−2)	M L T^-2
Work	W	joule (J = kg M² s−2)	M L^-2² T^-2
Young's modulus	E	pascal (Pa = kg m^-1 s−2)	M L^-1 T^-2
Thermal conductivity	k	W m^-1 K^-1	M L T^-3 Θ^-1
Torque	τ	newton metre (N m)	M L² T^-2
Velocity	v→	m s^-1	L T^-1
Volume	V	m³	L³
Wavelength	λ	m	L
Wavenumber	k	m^-1	L^-1
Wavevector	k→	m^-1 with direction	L^-1
Weight	w	newton (N = kg m s−2)	M L T^-2
Work	W	joule (J = kg M² s^-2)	M L² T^-2
Young's modulus	E	pascal (Pa = kg m^-1 s−2)	M L^-1 T^-2

List of Physical Quantities (with Symbols, SI Unit, and Dimension)

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