List of physical quantities

The primary dimensions of physical quantities are arbitrary and depend on the choice of units. I is usually based on the base units of the International System of Units.

Other dimensions, such as force rather than mass, or charge [Q] rather than current [I], could be used. Even the number of dimensions is not fixed. In the three-base unit cgs system, for example, the units of charge are erg^½ cm^½ and the dimensional analysis of this quantity in terms of base units is [M]^½ [L] [T]^-1, whereas in the analysis below charge has units of [I][T].

Also note that the symbols are not International Standards and may be used differently than shown here.

Base quantity	Symbol	Description	Dimension and units (SI)	Comments
Length	l	The one dimensional extent of an object.	metre (m)
Mass	m	The amount of matter in an object.	kilogram (kg)	extensive
Time	t	The duration of an event.	second (s)
Current	I	Rate of flow of electrical charge.	ampere (A)
Temperature	T	Average kinetic energy of particles in an object.	kelvin (K)	intensive
Number of particles	n	Number of particles compared to the number of atoms in 0.012 kg of C¹².	mole (mol)	extensive
Luminous intensity	L	Amount of energy emitted by a light source in a particular direction.	candela (cd)
Derived quantity	Symbol	Description	Dimensions and units (SI)	Comments
Acceleration	a	Rate of change of the speed or velocity of an object.	m s^-2 (metre per second squared)	scalar or vector
Angle	θ	Measure of a change in direction.	radian (rad)
Angular acceleration	α	Rate of change in angular speed or velocity	s^-2	radian per second squared
Angular speed (or angular velocity)	ω or ω	The angle incremented in a plane by a segment connecting an object and a reference point.	s^-1 (radian per second)
Angular momentum	L	Measure of the extent and direction and object rotates about a reference point.	kg m²	conserved quantity
Area	A	The two dimensional extent of an object.	m² (square metre)
Area density	ρ_A	The amount of mass per unit area of a two dimensional object.	kg m^-2 (kilogram per square meter)
Density (volume density)	ρ	The amount of mass per unit volume of a three dimensional object	kg m^-3 (kilogram per cubic metre)	intensive
Electric Charge	Q		A s (coulomb)	extensive, conserved quantity
Energy	E	The capacity of a body or system to do work.	kg m² s^-2 (joule)	extensive, scalar, conserved quantity
Force	F	The external cause of acceleration, acting on an object.	kg m s^-2 (newton)	vector
Frequency	f	The number of times something happens in a period of time.	s^-1 (hertz)
Linear density	ρ_l	Amount of mass per unit length of a one dimensional object.	kg m^-1 (kilogram per meter)
Magnetic flux	Φ	Measure of quantity of magnetism, taking account of the strength and the extent of a magnetic field.	kg s^-2 A^-1 (weber)
Momentum	p	Product of an object's mass and velocity.	kg m s^-1 (kilogram meter per second)	extensive
Power	P	The rate of change in energy over time.	kg m² s^-3 (watt)
Pressure	p	Amount of force per unit area.	kg m^-1 s^-2 (pascal)	intensive
Solid angle	Ω		steradian (sr)
Speed	v	Rate of change of the position of an object.	m s^-1 (metre per second)	scalar
Torque (moment of force)	T	Product of a force and the perpendicular disatance of the force from the point about which it is exerted.	kg m² s^-2 (newton metre)	vector
Velocity	v	Speed of an object in a chosen direction.	m s^-1	vector
Voltage (Electric Potential)	V or ${\mathcal {E}}$	the potential difference across a conductor when a current of one ampere dissipates one watt of power	m² kg s^–3 A^–1	scalar
Volume	V	The three dimensional extent of an object.	m³ (cubic metre)	extensive
Work	W	Energy dissipated by a force moving over a distance, scalar product of the force and the movement vector.	kg m² s^-2 (joule)	scalar