Unitate derivate del SI

Unitate derivate del SI
	subclasse de: unitate del SI[], derived unit[]
	parte de: Systema International de Unitates
	;

Le unitates derivate del SI es un parte del Systema International de Unitates (SI) e es derivate del septe unitates de base del SI.

Le tabella sequente monstra solmente le unitates derivate que ha nomines e symbolos special.

Magnitude	Nomine del unitate	Symbolo pro le unitate	Expression in terminos de altere unitates	Expression in terminos del unitates de base del SI
frequentia	hertz	Hz	${\mbox{s}}^{-1}$
fortia	newton	N	${\mbox{kg}}\cdot {\mbox{m}}\cdot {\mbox{s}}^{-2}$
pression	pascal	Pa	${\mbox{N}}\cdot {\mbox{m}}^{-2}$	$={\mbox{kg}}\cdot {\mbox{m}}^{-1}\cdot {\mbox{s}}^{-2}$
energia, travalio, quantitate de calor	joule	J	${\mbox{N}}\cdot {\mbox{m}}$	$={\mbox{kg}}\cdot {\mbox{m}}^{2}\cdot {\mbox{s}}^{-2}$
potentia, fluxo energetic	watt	W	${\mbox{J}}\cdot {\mbox{s}}^{-1}$	$={\mbox{kg}}\cdot {\mbox{m}}^{2}\cdot {\mbox{s}}^{-3}$
carga electric	coulomb	C	${\mbox{A}}\cdot {\mbox{s}}$
differentia de potential electric, fortia electromotive	volt	V	${\mbox{J}}\cdot {\mbox{C}}^{-1}$	$={\mbox{m}}^{2}\cdot {\mbox{kg}}\cdot {\mbox{s}}^{-3}\cdot {\mbox{A}}^{-1}$
resistentia electric	ohm	$\Omega$	${\mbox{V}}\cdot {\mbox{A}}^{-1}$	$={\mbox{m}}^{2}\cdot {\mbox{kg}}\cdot {\mbox{s}}^{-3}\cdot {\mbox{A}}^{-2}$
conductantia electric	siemens	S	${\mbox{A}}\cdot {\mbox{V}}^{-1}$	$={\mbox{s}}^{3}\cdot {\mbox{A}}^{2}\cdot {\mbox{m}}^{-2}\cdot {\mbox{kg}}^{-1}$
capacitate electric	farad	F	${\mbox{C}}\cdot {\mbox{V}}^{-1}$	$={\mbox{s}}^{4}\cdot {\mbox{A}}^{2}\cdot {\mbox{m}}^{-2}\cdot {\mbox{kg}}^{-1}$
induction magnetic	tesla	T	${\mbox{V}}\cdot {\mbox{s}}\cdot {\mbox{m}}^{-2}$	$={\mbox{kg}}\cdot {\mbox{s}}^{-2}\cdot {\mbox{A}}^{-1}$
fluxo de induction magnetic	weber	Wb	${\mbox{V}}\cdot {\mbox{s}}$	$={\mbox{m}}^{2}\cdot {\mbox{kg}}\cdot {\mbox{s}}^{-2}\cdot {\mbox{A}}^{-1}$
inductantia	henry	H	${\mbox{V}}{\mbox{s}}\cdot {\mbox{A}}^{-1}$	$={\mbox{m}}^{2}\cdot {\mbox{kg}}\cdot {\mbox{s}}^{-2}\cdot {\mbox{A}}^{-2}$
temperatura Celsius	grado Celsius	°C	K
angulo plan	radiano	rad	1	$={\mbox{m}}\cdot {\mbox{m}}^{-1}$
angulo solide	steradiano	sr	1	$={\mbox{m}}^{2}\cdot {\mbox{m}}^{-2}$
fluxo luminose	lumen	lm	${\mbox{cd}}\cdot {\mbox{sr}}$
illuminantia	lux	lx	${\mbox{cd}}\cdot {\mbox{sr}}\cdot {\mbox{m}}^{-2}$
activitate (de un radionucleido)	becquerel	Bq	${\mbox{s}}^{-1}$
dose absorbite de radiation	gray	Gy	${\mbox{J}}\cdot {\mbox{kg}}^{-1}$	$={\mbox{m}}^{2}\cdot {\mbox{s}}^{-2}$
dose equivalente	sievert	Sv	${\mbox{J}}\cdot {\mbox{kg}}^{-1}$	$={\mbox{m}}^{2}\cdot {\mbox{s}}^{-2}$
activitate catalytic	katal	kat	${\mbox{mol}}\cdot {\mbox{s}}^{-1}$

Altere magnitudes e unitates

Unitates composite derivate del unitates del SI
Nomine	Symbolo	Magnitudo	Expression in terminos del unitates de base del SI
metro quadrate	m²	area	m²
metro cubic	m³	volumine	m³
metro per secundo	m/s	rapiditate, velocitate	m·s⁻¹
metro cubic per secundo	m³/s	fluxo volumetric	m³·s⁻¹
metro per secundo quadrate	m/s²	acceleration	m·s⁻²
radian per secundo	rad/s	velocitate angular	s⁻¹
newton secundo	N·s	momento, impulso	m·kg·s⁻¹
newton metro secundo	N·m·s	momento angular	m²·kg·s⁻¹
newton metro	N·m = J/rad	torsion	m²·kg·s⁻²
metro reciprocal	m⁻¹	undaplure	m⁻¹
kilogramma per metro quadrate	kg/m²	densitate areal	m⁻²·kg
kilogramma per metro cubic	kg/m³	densitate	m⁻³·kg
metro cubic per kilogramma	m³/kg	volumine specific	m³·kg⁻¹
mol per metro cubic	mol/m³	concentration, densitate molar	m⁻³·mol
metro cubic per mol	m³/mol	volumine molar	m³·mol⁻¹
joule secundo	J·s	action	m²·kg·s⁻¹
joule per kelvin	J/K	capacitate caloric, entropia	m²·kg·s⁻²·K⁻¹
joule per kelvin mol	J/(K·mol)	capacitate caloric molar, entropia molar	m²·kg·s⁻²·K⁻¹·mol⁻¹
joule per kilogramma kelvin	J/(K·kg)	capacitate caloric specific, entropia specific	m²·s⁻²·K⁻¹
joule per mol	J/mol	energia molar	m²·kg·s⁻²·mol⁻¹
joule per kilogramma	J/kg	energia specific	m²·s⁻²
joule per metro cubic	J/m³	densitate energetic	m⁻¹·kg·s⁻²
newton per metro	N/m = J/m²	tension superficial	kg·s⁻²
watt per metro quadrate	W/m²	densitate de fluxo caloric, irradiantia	kg·s⁻³
watt per metro kelvin	W/(m·K)	conductivitate thermal	m·kg·s⁻³·K⁻¹
metro quadrate per secundo	m²/s	viscositate kinematic, coefficiente de diffusion	m²·s⁻¹
pascal secundo	Pa·s = N·s/m²	viscositate dynamic	m⁻¹·kg·s⁻¹
coulomb per metro quadrate	C/m²	campo electric de displaciamento	m⁻²·s·A
coulomb per metro cubic	C/m³	densitate de carga electric	m⁻³·s·A
ampere per metro quadrate	A/m²	densitate de currente electric	A·m⁻²
siemens per metro	S/m	conductivitate	m⁻³·kg⁻¹·s³·A²
siemens metro quadrate per mol	S·m²/mol	conductivitate molar	kg^-1·s³·mol⁻¹·A²
farad per metro	F/m	permittivitate	m⁻³·kg⁻¹·s⁴·A²
henry per metro	H/m	permeabilitate	m·kg·s⁻²·A⁻²
volt per metro	V/m	intensitate de campo electric	m·kg·s⁻³·A⁻¹
ampere per metro	A/m	intensitate de campo magnetic	A·m⁻¹
candela per metro quadrate	cd/m²	luminantia	cd·m⁻²
coulomb per kilogramma	C/kg	exposition (radios X e radios gamma)	kg⁻¹·s·A
gray per secundo	Gy/s	rata de dose absorbite	m²·s⁻³
ohm metro	Ω·m	resistivitate	m³·kg·s⁻³·A⁻²
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