Code
LaTeX
MathJax
\num{12345,67890} \\
\num{1+-2i} \\
\num{.3e45} \\
\num{1.654 x 2.34 x 3.430}
\( \num{12345,67890} \\
\num{1+-2i} \\
\num{.3e45} \\
\num{1.654 x 2.34 x 3.430} \)
\si{kg.m.s^{-1}} \\
\si{\kilogram\metre\per\second} \\
\si[per-mode=symbol]
{\kilogram\metre\per\second} \\
\si[per-mode=symbol]
{\kilogram\metre\per\ampere\per\second}
\( \si{kg.m.s^{-1}} \\
\si{\kilogram\metre\per\second} \\
\si[per-mode=symbol]
{\kilogram\metre\per\second} \\
\si[per-mode=symbol]
{\kilogram\metre\per\ampere\per\second} \)
\numlist{10;20;30} \\
\SIlist{0.13;0.67;0.80}{\milli\metre} \\
\numrange{10}{20} \\
\SIrange{0.13}{0.67}{\milli\metre}
\( \numlist{10;20;30} \\
\SIlist{0.13;0.67;0.80}{\milli\metre} \\
\numrange{10}{20} \\
\SIrange{0.13}{0.67}{\milli\metre} \)
\num{123} \\
\num{1234} \\
\num{12345} \\
\num{0.123} \\
\num{0,1234} \\
\num{.12345} \\
\num{3.45d-4} \\
\num{-e10}
\( \num{123} \\
\num{1234} \\
\num{12345} \\
\num{0.123} \\
\num{0,1234} \\
\num{.12345} \\
\num{3.45d-4} \\
\num{-e10} \)
\numlist{10;30;50;70}
\( \numlist{10;30;50;70} \)
\numrange{10}{30}
\( \numrange{10}{30} \)
\ang{10} \\
\ang{12.3} \\
\ang{4,5} \\
\ang{1;2;3} \\
\ang{;;1} \\
\ang{+10;;} \\
\ang{-0;1;}
\( \ang{10} \\
\ang{12.3} \\
\ang{4,5} \\
\ang{1;2;3} \\
\ang{;;1} \\
\ang{+10;;} \\
\ang{-0;1;} \)
\si{kg.m/s^2} \\
\si{g_{polymer}~mol_{cat}.s^{-1}}
\( \si{kg.m/s^2} \\
\si{g_{polymer}~mol_{cat}.s^{-1}} \)
\si{\kilo\gram\metre\per\square\second} \\
\si{\gram\per\cubic\centi\metre} \\
\si{\square\volt\cubic\lumen\per\farad} \\
\si{\metre\squared\per\gray\cubic\lux} \\
\si{\henry\second}
\( \si{\kilo\gram\metre\per\square\second} \\
\si{\gram\per\cubic\centi\metre} \\
\si{\square\volt\cubic\lumen\per\farad} \\
\si{\metre\squared\per\gray\cubic\lux} \\
\si{\henry\second} \)
\SI[mode=text]{1.23}{J.mol^{-1}.K^{-1}} \\
\SI{.23e7}{\candela} \\
\SI[per-mode=symbol]{1.99}[\$]{\per\kilogram} \\
\SI[per-mode=fraction]{1,345}{\coulomb\per\mole}
\( \SI[mode=text]{1.23}{J.mol^{-1}.K^{-1}} \\
\SI{.23e7}{\candela} \\
\SI[per-mode=symbol]{1.99}[\$]{\per\kilogram} \\
\SI[per-mode=fraction]{1,345}{\coulomb\per\mole} \)
\SIlist{10;30;45}{\metre}
\( \SIlist{10;30;45}{\metre} \)
\SIrange{10}{30}{\metre}
\( \SIrange{10}{30}{\metre} \)
\si{\square\becquerel} \\
\si{\joule\squared\per\lumen} \\
\si{\cubic\lux\volt\tesla\cubed}
\( \si{\square\becquerel} \\
\si{\joule\squared\per\lumen} \\
\si{\cubic\lux\volt\tesla\cubed} \)
\si{\henry\tothe{5}} \\
\si{\raiseto{4.5}\radian}
\( \si{\henry\tothe{5}} \\
\si{\raiseto{4.5}\radian} \)
\si{\joule\per\mole\per\kelvin} \\
\si{\joule\per\mole\kelvin} \\
\si{\per\henry\tothe{5}} \\
\si{\per\square\becquerel}
\( \si{\joule\per\mole\per\kelvin} \\
\si{\joule\per\mole\kelvin} \\
\si{\per\henry\tothe{5}} \\
\si{\per\square\becquerel} \)
\si{\kilogram\of{metal}} \\
\SI[qualifier-mode = brackets]
{0.1}{\milli\mole\of{cat}\per\kilogram\of{prod}}
\( \si{\kilogram\of{metal}} \\
\SI[qualifier-mode = brackets]
{0.1}{\milli\mole\of{cat}\per\kilogram\of{prod}} \)
\si[per-mode = fraction]
{\cancel\kilogram\metre\per\cancel\kilogram\per\second} \\
\si{\highlight{red}\kilogram\metre\per\second} \\
\si[unit-color = purple]
{\highlight{red}\kilogram\metre\per\second}
\( \si[per-mode = fraction]
{\cancel\kilogram\metre\per\cancel\kilogram\per\second} \\
\si{\highlight{red}\kilogram\metre\per\second} \\
\si[unit-color = purple]
{\highlight{red}\kilogram\metre\per\second} \)
\si{\kilo} \\
\si{\micro} \\
\si[prefixes-as-symbols = false]{\kilo}
\( \si{\kilo} \\
\si{\micro} \\
\si[prefixes-as-symbols = false]{\kilo} \)
\SI{3.1415}{\degree}
\( \SI{3.1415}{\degree} \)
\SI{67890}{\degree} \\
\SI[number-unit-product = \,]{67890}{\degree}
\( \SI{67890}{\degree} \\
\SI[number-unit-product = \,]{67890}{\degree} \)
\si{\kilogram\tothefourth}\\
\si{\quartic\metre}
\( \si{\kilogram\tothefourth}\\
\si{\quartic\metre} \)
\SI{1.234}{\gram\polymer\per\mole\catalyst\per\hour}
\( \SI{1.234}{\gram\polymer\per\mole\catalyst\per\hour} \)
\sisetup{
detect-family = true,
detect-inline-family = math
}%
$\num{1234}$ \\
{ \sffamily $\num{1234}$ } \\
$ \mathsf { \num{1234}} $ \\
\sisetup{detect-inline-family = text}
{ \sffamily $\num{1234}$ } \\
$ \mathsf { \num{1234} } $ \\
\sisetup{
detect-weight = true,
detect-inline-weight = math
}%
$\num{5678}$ \\
{ \boldmath $\num{5678}$ } \\
{ \bfseries $\num{5678}$ } \\
\sisetup{detect-inline-weight = text}
{ \boldmath $\num{5678}$ } \\
{ \bfseries $\num{5678}$ }
\( \sisetup{
detect-family = true,
detect-inline-family = math
}%
$\num{1234}$ \\
{ \sffamily $\num{1234}$ } \\
$ \mathsf { \num{1234}} $ \\
\sisetup{detect-inline-family = text}
{ \sffamily $\num{1234}$ } \\
$ \mathsf { \num{1234} } $ \\
\sisetup{
detect-weight = true,
detect-inline-weight = math
}%
$\num{5678}$ \\
{ \boldmath $\num{5678}$ } \\
{ \bfseries $\num{5678}$ } \\
\sisetup{detect-inline-weight = text}
{ \boldmath $\num{5678}$ } \\
{ \bfseries $\num{5678}$ } \)
\sffamily
Some text
\sisetup{
detect-family,
detect-display-math = true
}
\[ x = \SI{1.2e3}{\kilogram\kelvin\candela} \]
More text
\sisetup{detect-display-math = false}
\[ y = \SI{3}{\metre\second\mole} \]
\( \sffamily
Some text
\sisetup{
detect-family,
detect-display-math = true
}
\[ x = \SI{1.2e3}{\kilogram\kelvin\candela} \]
More text
\sisetup{detect-display-math = false}
\[ y = \SI{3}{\metre\second\mole} \] \)
\sisetup{detect-family}%
\num{1234} \\
{ \sffamily \num{1234} } \\
\SI{99}{\metre} \\
\sisetup{math-rm = \mathtt}%
\SI{99}{\metre}
\( \sisetup{detect-family}%
\num{1234} \\
{ \sffamily \num{1234} } \\
\SI{99}{\metre} \\
\sisetup{math-rm = \mathtt}%
\SI{99}{\metre} \)
\color{red}
Some text \\
\SI{4}{\metre\per\sievert} \\
More text \\
\SI[color = blue]{4}{\metre\per\sievert} \\
Still red here!
\( \color{red}
Some text \\
\SI{4}{\metre\per\sievert} \\
More text \\
\SI[color = blue]{4}{\metre\per\sievert} \\
Still red here! \)
\SI{4}{\angstrom} \\
\SI[number-color = green]{4}{\angstrom} \\
\SI[unit-color = green]{4}{\angstrom}
\( \SI{4}{\angstrom} \\
\SI[number-color = green]{4}{\angstrom} \\
\SI[unit-color = green]{4}{\angstrom} \)
\num{< 10} \\
\SI{>> 5}{\metre} \\
\num{\le 0.12}
\( \num{< 10} \\
\SI{>> 5}{\metre} \\
\num{\le 0.12} \)
\num{9.99(9)} \\
\num{9.99 +- 0.09} \\
\num{9.99 \pm 0.09} \\
\num{123 +- 4.5} \\
\num{12.3 +- 6}
\( \num{9.99(9)} \\
\num{9.99 +- 0.09} \\
\num{9.99 \pm 0.09} \\
\num{123 +- 4.5} \\
\num{12.3 +- 6} \)
\num{9.99 + 88.8i} \\
\num{9.99 + i88.8}
\( \num{9.99 + 88.8i} \\
\num{9.99 + i88.8} \)
\num[parse-numbers = false]{\sqrt{2}} \\
\SI[parse-numbers = false]{\sqrt{3}}{\metre}
\( \num[parse-numbers = false]{\sqrt{2}} \\
\SI[parse-numbers = false]{\sqrt{3}}{\metre} \)
\num{1.23456} \\
\num{14.23} \\
\num{0.12345(9)} \\
\sisetup{
round-mode = places,
round-precision = 3
}%
\num{1.23456} \\
\num{14.23} \\
\num{0.12345(9)} \\
\sisetup{
round-mode = figures,
round-precision = 3
}%
\num{1.23456} \\
\num{14.23} \\
\num{0.12345(9)}
\( \num{1.23456} \\
\num{14.23} \\
\num{0.12345(9)} \\
\sisetup{
round-mode = places,
round-precision = 3
}%
\num{1.23456} \\
\num{14.23} \\
\num{0.12345(9)} \\
\sisetup{
round-mode = figures,
round-precision = 3
}%
\num{1.23456} \\
\num{14.23} \\
\num{0.12345(9)} \)
\num[round-mode = figures]{1} \\
\num[round-mode = places]{1} \\
\sisetup{round-integer-to-decimal}
\num[round-mode = figures]{1} \\
\num[round-mode = places]{1}
\( \num[round-mode = figures]{1} \\
\num[round-mode = places]{1} \\
\sisetup{round-integer-to-decimal}
\num[round-mode = figures]{1} \\
\num[round-mode = places]{1} \)
\num{2.0} \\
\num{2.1} \\
\sisetup{zero-decimal-to-integer}
\num{2.0} \\
\num{2.1}
\( \num{2.0} \\
\num{2.1} \\
\sisetup{zero-decimal-to-integer}
\num{2.0} \\
\num{2.1} \)
\sisetup{round-mode = places}%
\num{0.0055} \\
\num{0.0045} \\
\sisetup{round-minimum = 0.01}%
\num{0.0055} \\
\num{0.0045}
\( \sisetup{round-mode = places}%
\num{0.0055} \\
\num{0.0045} \\
\sisetup{round-minimum = 0.01}%
\num{0.0055} \\
\num{0.0045} \)
\sisetup{round-mode = places, round-half = up}%
\num{0.055} \\
\num{0.045} \\
\sisetup{round-half = even}%
\num{0.055} \\
\num{0.045}
\( \sisetup{round-mode = places, round-half = up}%
\num{0.055} \\
\num{0.045} \\
\sisetup{round-half = even}%
\num{0.055} \\
\num{0.045} \)
\num{123.} \\
\num{456} \\
\num{.789} \\
\sisetup{
add-decimal-zero = false,
add-integer-zero = false,
}%
\num{123.} \\
\num{456} \\
\num{.789}
\( \num{123.} \\
\num{456} \\
\num{.789} \\
\sisetup{
add-decimal-zero = false,
add-integer-zero = false,
}%
\num{123.} \\
\num{456} \\
\num{.789} \)
\num{123} \\
\num[minimum-integer-digits = 1]{123} \\
\num[minimum-integer-digits = 2]{123} \\
\num[minimum-integer-digits = 3]{123} \\
\num[minimum-integer-digits = 4]{123}
\( \num{123} \\
\num[minimum-integer-digits = 1]{123} \\
\num[minimum-integer-digits = 2]{123} \\
\num[minimum-integer-digits = 3]{123} \\
\num[minimum-integer-digits = 4]{123} \)
\num{+345} \\
\num[retain-explicit-plus]{+345} \\
\num[explicit-sign = -]{345} \\
\num[explicit-sign = -]{+345}
\( \num{+345} \\
\num[retain-explicit-plus]{+345} \\
\num[explicit-sign = -]{345} \\
\num[explicit-sign = -]{+345} \)
\num{1e4} \\
\num[retain-unity-mantissa = false]{1e4} \\
\num{444e0} \\
\num[retain-zero-exponent = true]{444e0}
\( \num{1e4} \\
\num[retain-unity-mantissa = false]{1e4} \\
\num{444e0} \\
\num[retain-zero-exponent = true]{444e0} \)
\num{0.001} \\
\num{0.0100} \\
\num{1200} \\
\sisetup{scientific-notation = true}%
\num{0.001} \\
\num{0.0100} \\
\num{1200} \\
\sisetup{scientific-notation = engineering}%
\num{0.001} \\
\num{0.0100} \\
\num{1200} \\
\sisetup{
fixed-exponent = 2,
scientific-notation = fixed,
}%
\num{0.001} \\
\num{0.0100} \\
\num{1200}
\( \num{0.001} \\
\num{0.0100} \\
\num{1200} \\
\sisetup{scientific-notation = true}%
\num{0.001} \\
\num{0.0100} \\
\num{1200} \\
\sisetup{scientific-notation = engineering}%
\num{0.001} \\
\num{0.0100} \\
\num{1200} \\
\sisetup{
fixed-exponent = 2,
scientific-notation = fixed,
}%
\num{0.001} \\
\num{0.0100} \\
\num{1200} \)
\num{1.23e4} \\
\num[scientific-notation = fixed, fixed-exponent = 0]{1.23e4}
\( \num{1.23e4} \\
\num[scientific-notation = fixed, fixed-exponent = 0]{1.23e4} \)
\num{0.01(2)} \\
\num[omit-uncertainty]{0.01(2)}
\( \num{0.01(2)} \\
\num[omit-uncertainty]{0.01(2)} \)
\num{12345.67890} \\
\num[group-digits = false]{12345.67890} \\
\num[group-digits = decimal]{12345.67890} \\
\num[group-digits = integer]{12345.67890}
\( \num{12345.67890} \\
\num[group-digits = false]{12345.67890} \\
\num[group-digits = decimal]{12345.67890} \\
\num[group-digits = integer]{12345.67890} \)
\num{12345} \\
\num[group-separator = {,}]{12345} \\
\num[group-separator = \text{~}]{12345}
\( \num{12345} \\
\num[group-separator = {,}]{12345} \\
\num[group-separator = \text{~}]{12345} \)
\num{1234} \\
\num[group-minimum-digits = 4]{1234} \\
\num{1234.5678} \\
\num[group-minimum-digits = 4]{1234.5678}
\( \num{1234} \\
\num[group-minimum-digits = 4]{1234} \\
\num{1234.5678} \\
\num[group-minimum-digits = 4]{1234.5678} \)
\num{1.23} \\
\num[output-decimal-marker = {,}]{1.23} \\
\num{1+2i} \\
\num[output-complex-root = \text{\ensuremath{i}}]{1+2i} \\
\num[output-complex-root = j]{1+2i} \\
\num[copy-complex-root]{1+2j} \\
\num[copy-decimal-marker]{555,555}
\( \num{1.23} \\
\num[output-decimal-marker = {,}]{1.23} \\
\num{1+2i} \\
\num[output-complex-root = \text{\ensuremath{i}}]{1+2i} \\
\num[output-complex-root = j]{1+2i} \\
\num[copy-complex-root]{1+2j} \\
\num[copy-decimal-marker]{555,555} \)
\num{67-0.9i} \\
\num[complex-root-position = before-number]{67-0.9i} \\
\num[complex-root-position = after-number]{67-0.9i}
\( \num{67-0.9i} \\
\num[complex-root-position = before-number]{67-0.9i} \\
\num[complex-root-position = after-number]{67-0.9i} \)
\num[exponent-product = \times]{1e2} \\
\num[exponent-product = \cdot]{1e2} \\
\num[exponent-base = 2]{1e2}
\( \num[exponent-product = \times]{1e2} \\
\num[exponent-product = \cdot]{1e2} \\
\num[exponent-base = 2]{1e2} \)
\num[output-exponent-marker = \text{e}]{1e2} \\
\num[output-exponent-marker = \ensuremath{\mathrm{E}}]{1e2}
\( \num[output-exponent-marker = \text{e}]{1e2} \\
\num[output-exponent-marker = \ensuremath{\mathrm{E}}]{1e2} \)
\num{1.234(5)} \\
\num[separate-uncertainty = true]{1.234(5)} \\
\sisetup{
output-open-uncertainty = [,
output-close-uncertainty = ],
uncertainty-separator = {\,}
}
\num{1.234(5)}
\( \num{1.234(5)} \\
\num[separate-uncertainty = true]{1.234(5)} \\
\sisetup{
output-open-uncertainty = [,
output-close-uncertainty = ],
uncertainty-separator = {\,}
}
\num{1.234(5)} \)
\num{8.2(13)} \\
\num[separate-uncertainty]{8.2(13)}
\( \num{8.2(13)} \\
\num[separate-uncertainty]{8.2(13)} \)
\num{1+2i e10} \\
\num[bracket-numbers = false]{1+2i e10} \\
\sisetup{
open-bracket = \{,
close-bracket = \},
}
\num{1+2i e10}
\( \num{1+2i e10} \\
\num[bracket-numbers = false]{1+2i e10} \\
\sisetup{
open-bracket = \{,
close-bracket = \},
}
\num{1+2i e10} \)
\num{-15673} \\
\num[negative-color = red]{-15673}
\( \num{-15673} \\
\num[negative-color = red]{-15673} \)
\num{-15673} \\
\num[bracket-negative-numbers]{-15673} \\
\SI{-10}{\metre} \\
\SI[bracket-negative-numbers]{-10}{\metre}
\( \num{-15673} \\
\num[bracket-negative-numbers]{-15673} \\
\SI{-10}{\metre} \\
\SI[bracket-negative-numbers]{-10}{\metre} \)
\num{1 \pm 2i e3} \\
\num[tight-spacing = true]{1 \pm 2i e3}
\( \num{1 \pm 2i e3} \\
\num[tight-spacing = true]{1 \pm 2i e3} \)
\num{1 x 2 x 3} \\
\num{1e4 x 2(3) x 3/4} \\
\num[input-product=*]{4 * 5 * 6} \\
\num{ 1 / 2e4 } \\
\num{ 1e2 / 3e4 }
\( \num{1 x 2 x 3} \\
\num{1e4 x 2(3) x 3/4} \\
\num[input-product=*]{4 * 5 * 6} \\
\num{ 1 / 2e4 } \\
\num{ 1e2 / 3e4 } \)
\num[output-product = \cdot]{4.87 x 5.321 x 6.90545} \\
\num[output-quotient = \text{ div }]{1 / 2}
\( \num[output-product = \cdot]{4.87 x 5.321 x 6.90545} \\
\num[output-quotient = \text{ div }]{1 / 2} \)
\num{1 / 2e4} \\
\num[quotient-mode = fraction]{1 / 2e4}
\( \num{1 / 2e4} \\
\num[quotient-mode = fraction]{1 / 2e4} \)
\sisetup{quotient-mode = fraction}
\num{1 / 1}
\num[fraction-function = \dfrac]{1 / 2}
\num[fraction-function = \sfrac]{1 / 3}
\num[fraction-function = \tfrac]{1 / 4}
\( \sisetup{quotient-mode = fraction}
\num{1 / 1}
\num[fraction-function = \dfrac]{1 / 2}
\num[fraction-function = \sfrac]{1 / 3}
\num[fraction-function = \tfrac]{1 / 4} \)
\numlist{0.1;0.2;0.3} \\
\numlist[list-separator = {; }]{0.1;0.2;0.3} \\
\numlist[list-final-separator = {, }]{0.1;0.2;0.3} \\
\numlist[
list-separator = { and },
list-final-separator = { and finally }
]{0.1;0.2;0.3} \\
\numlist{0.1;0.2} \\
\numlist[list-pair-separator = {, and }]{0.1;0.2}
\( \numlist{0.1;0.2;0.3} \\
\numlist[list-separator = {; }]{0.1;0.2;0.3} \\
\numlist[list-final-separator = {, }]{0.1;0.2;0.3} \\
\numlist[
list-separator = { and },
list-final-separator = { and finally }
]{0.1;0.2;0.3} \\
\numlist{0.1;0.2} \\
\numlist[list-pair-separator = {, and }]{0.1;0.2} \)
\numrange{5}{100} \\
\numrange[range-phrase = --]{5}{100}
\( \numrange{5}{100} \\
\numrange[range-phrase = --]{5}{100} \)
\sisetup{
fixed-exponent = 3 ,
list-units = brackets ,
range-units = brackets ,
scientific-notation = fixed
}%
\SIrange{1e3}{7e3}{\metre} \\
\SIlist{1e3;2e3;3e3}{\kg}
\( \sisetup{
fixed-exponent = 3 ,
list-units = brackets ,
range-units = brackets ,
scientific-notation = fixed
}%
\SIrange{1e3}{7e3}{\metre} \\
\SIlist{1e3;2e3;3e3}{\kg} \)
\ang{2.67} \\
\ang[number-angle-product = \,]{2.67}
\( \ang{2.67} \\
\ang[number-angle-product = \,]{2.67} \)
\ang{6;7;6.5} \\
\ang[arc-separator = \,]{6;7;6.5}
\( \ang{6;7;6.5} \\
\ang[arc-separator = \,]{6;7;6.5} \)
\ang{-1;;} \\
\ang{;-2;} \\
\ang{;;-3} \\
\sisetup{add-arc-degree-zero}
\ang{-1;;} \\
\ang{;-2;} \\
\ang{;;-3} \\
\sisetup{add-arc-minute-zero}
\ang{-1;;} \\
\ang{;-2;} \\
\ang{;;-3} \\
\sisetup{add-arc-second-zero}
\ang{-1;;} \\
\ang{;-2;} \\
\ang{;;-3}
\( \ang{-1;;} \\
\ang{;-2;} \\
\ang{;;-3} \\
\sisetup{add-arc-degree-zero}
\ang{-1;;} \\
\ang{;-2;} \\
\ang{;;-3} \\
\sisetup{add-arc-minute-zero}
\ang{-1;;} \\
\ang{;-2;} \\
\ang{;;-3} \\
\sisetup{add-arc-second-zero}
\ang{-1;;} \\
\ang{;-2;} \\
\ang{;;-3} \)
\ang{45.697} \\
\ang{6;7;6.5} \\
\ang[angle-symbol-over-decimal]{45.697} \\
\ang[angle-symbol-over-decimal]{6;7;6.5}
\( \ang{45.697} \\
\ang{6;7;6.5} \\
\ang[angle-symbol-over-decimal]{45.697} \\
\ang[angle-symbol-over-decimal]{6;7;6.5} \)
\SI{100}{\mebi\byte} \\
\SI[prefixes-as-symbols=false]{30}{\kibi\bit}
\( \SI{100}{\mebi\byte} \\
\SI[prefixes-as-symbols=false]{30}{\kibi\bit} \)
\si{\farad\squared\lumen\candela} \\
\si[inter-unit-product = \ensuremath{{}\cdot{}}]
{\farad\squared\lumen\candela}
\( \si{\farad\squared\lumen\candela} \\
\si[inter-unit-product = \ensuremath{{}\cdot{}}]
{\farad\squared\lumen\candela} \)
\si{\joule\per\mole\per\kelvin} \\
\si{\metre\per\second\squared} \\
\si[per-mode=fraction]{\joule\per\mole\per\kelvin} \\
\si[per-mode=fraction]{\metre\per\second\squared}
\( \si{\joule\per\mole\per\kelvin} \\
\si{\metre\per\second\squared} \\
\si[per-mode=fraction]{\joule\per\mole\per\kelvin} \\
\si[per-mode=fraction]{\metre\per\second\squared} \)
\si{\ampere\per\mole\second} \\
\si[per-mode = reciprocal-positive-first]
{\ampere\per\mole\second}
\( \si{\ampere\per\mole\second} \\
\si[per-mode = reciprocal-positive-first]
{\ampere\per\mole\second} \)
\sisetup{per-mode = symbol}%
\si{\joule\per\mole\per\kelvin} \\
\si{\metre\per\second\squared} \\
\si[per-symbol = \text{~div~}]{\joule\per\mole\per\kelvin} \\
\si[bracket-unit-denominator = false]{\joule\per\mole\per\kelvin}
\( \sisetup{per-mode = symbol}%
\si{\joule\per\mole\per\kelvin} \\
\si{\metre\per\second\squared} \\
\si[per-symbol = \text{~div~}]{\joule\per\mole\per\kelvin} \\
\si[bracket-unit-denominator = false]{\joule\per\mole\per\kelvin} \)
\si[per-mode=repeated-symbol]{\joule\per\mole\per\kelvin}
\( \si[per-mode=repeated-symbol]{\joule\per\mole\per\kelvin} \)
\sisetup{per-mode = symbol-or-fraction}%
\( \si{\joule\per\mole\per\kelvin} \)
\[ \si{\joule\per\mole\per\kelvin} \]
\si{\joule\per\mole\per\kelvin} \\
\(
\displaystyle
\si{\joule\per\mole\per\kelvin}
\)
\[
\textstyle
\si{\joule\per\mole\per\kelvin}
\]
\( \sisetup{per-mode = symbol-or-fraction}%
\( \si{\joule\per\mole\per\kelvin} \)
\[ \si{\joule\per\mole\per\kelvin} \]
\si{\joule\per\mole\per\kelvin} \\
\(
\displaystyle
\si{\joule\per\mole\per\kelvin}
\)
\[
\textstyle
\si{\joule\per\mole\per\kelvin}
\] \)
\si{\pascal\per\gray\henry} \\
\si[sticky-per]{\pascal\per\gray\henry}
\( \si{\pascal\per\gray\henry} \\
\si[sticky-per]{\pascal\per\gray\henry} \)
\si{\metre\per\second\squared} \\
\si[power-font = unit]{\metre\per\second\squared}
\( \si{\metre\per\second\squared} \\
\si[power-font = unit]{\metre\per\second\squared} \)
\si{m.s^{2}} \\
\si[literal-superscript-as-power = false]{m.s^{2}}
\( \si{m.s^{2}} \\
\si[literal-superscript-as-power = false]{m.s^{2}} \)
\si{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = brackets]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = subscript]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = space]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = text]
{\deci\bel\isotropic}
\( \si{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = brackets]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = subscript]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = space]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = text]
{\deci\bel\isotropic} \)
\si[qualifier-mode = phrase]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = phrase, qualifier-phrase = { by }]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\( \si[qualifier-mode = phrase]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\
\si[qualifier-mode = phrase, qualifier-phrase = { by }]
{\kilogram\polymer\squared\per\mole\catalyst\per\hour} \\ \)
\si{\milli\litre\per\mole\deci\ampere} \\
\SI{10}{\kilo\gram\squared\deci\second} \\
\si[prefixes-as-symbols=false]{\milli\litre\per\mole\deci\ampere}\\
\SI[prefixes-as-symbols=false]{10}{\kilo\gram\squared\deci\second}
\( \si{\milli\litre\per\mole\deci\ampere} \\
\SI{10}{\kilo\gram\squared\deci\second} \\
\si[prefixes-as-symbols=false]{\milli\litre\per\mole\deci\ampere}\\
\SI[prefixes-as-symbols=false]{10}{\kilo\gram\squared\deci\second} \)
\SI{300}{\MHz} \\
\SI[parse-units = false]{300}{\MHz}
\( \SI{300}{\MHz} \\
\SI[parse-units = false]{300}{\MHz} \)
\begin{minipage}{2.55 cm}
% Gives an underfull hbox
Some filler text \SI{10}{\metre} \\
\sisetup{allow-number-unit-breaks}
Some filler text \SI{10}{\metre}
\end{minipage}
\( \begin{minipage}{2.55 cm}
% Gives an underfull hbox
Some filler text \SI{10}{\metre} \\
\sisetup{allow-number-unit-breaks}
Some filler text \SI{10}{\metre}
\end{minipage} \)
\SI{2.67}{\farad} \\
\SI[number-unit-product = \ ]{2.67}{\farad} \\
\SI[number-unit-product = ]{2.67}{\farad}
\( \SI{2.67}{\farad} \\
\SI[number-unit-product = \ ]{2.67}{\farad} \\
\SI[number-unit-product = ]{2.67}{\farad} \)
\sisetup{separate-uncertainty}%
\SI{12.3(4)}{\kilo\gram} \\
\SI[multi-part-units = brackets]{12.3(4)}{\kilo\gram} \\
\SI[multi-part-units = repeat]{12.3(4)}{\kilo\gram} \\
\SI[multi-part-units = single]{12.3(4)}{\kilo\gram}
\( \sisetup{separate-uncertainty}%
\SI{12.3(4)}{\kilo\gram} \\
\SI[multi-part-units = brackets]{12.3(4)}{\kilo\gram} \\
\SI[multi-part-units = repeat]{12.3(4)}{\kilo\gram} \\
\SI[multi-part-units = single]{12.3(4)}{\kilo\gram} \)
\sisetup{separate-uncertainty,bracket-numbers = false}%
\num{1.234(5)e-4} \\
\SI{1.234(5)e-4}{\metre}
\( \sisetup{separate-uncertainty,bracket-numbers = false}%
\num{1.234(5)e-4} \\
\SI{1.234(5)e-4}{\metre} \)
\SI{2 x 3 x 4}{\metre} \\
\SI[product-units = brackets]{2 x 3 x 4}{\metre} \\
\SI[product-units = brackets-power]{2 x 3 x 4}{\metre} \\
\SI[product-units = power]{2 x 3 x 4}{\metre} \\
\SI[product-units = repeat]{2 x 3 x 4}{\metre} \\
\SI[product-units = single]{2 x 3 x 4}{\metre}
\( \SI{2 x 3 x 4}{\metre} \\
\SI[product-units = brackets]{2 x 3 x 4}{\metre} \\
\SI[product-units = brackets-power]{2 x 3 x 4}{\metre} \\
\SI[product-units = power]{2 x 3 x 4}{\metre} \\
\SI[product-units = repeat]{2 x 3 x 4}{\metre} \\
\SI[product-units = single]{2 x 3 x 4}{\metre} \)
\SIlist{2;4;6;8}{\tesla} \\
\SIlist[list-units = brackets]{2;4;6;8}{\tesla} \\
\SIlist[list-units = repeat]{2;4;6;8}{\tesla} \\
\SIlist[list-units = single]{2;4;6;8}{\tesla} \\
\SIrange{2}{4}{\degreeCelsius} \\
\SIrange[range-units = brackets]{2}{4}{\degreeCelsius} \\
\SIrange[range-units = repeat]{2}{4}{\degreeCelsius} \\
\SIrange[range-units = single]{2}{4}{\degreeCelsius}
\( \SIlist{2;4;6;8}{\tesla} \\
\SIlist[list-units = brackets]{2;4;6;8}{\tesla} \\
\SIlist[list-units = repeat]{2;4;6;8}{\tesla} \\
\SIlist[list-units = single]{2;4;6;8}{\tesla} \\
\SIrange{2}{4}{\degreeCelsius} \\
\SIrange[range-units = brackets]{2}{4}{\degreeCelsius} \\
\SIrange[range-units = repeat]{2}{4}{\degreeCelsius} \\
\SIrange[range-units = single]{2}{4}{\degreeCelsius} \)
\SI{1700}{\g} \\
\SI{1.7e3}{\g} \\
\sisetup{exponent-to-prefix}%
\SI{1700}{\g} \\
\SI{1.7e3}{\g} \\
\sisetup{fixed-exponent = 3, scientific-notation = fixed}%
\SI{1700}{\g} \\
\SI{1.7e3}{\g}
\( \SI{1700}{\g} \\
\SI{1.7e3}{\g} \\
\sisetup{exponent-to-prefix}%
\SI{1700}{\g} \\
\SI{1.7e3}{\g} \\
\sisetup{fixed-exponent = 3, scientific-notation = fixed}%
\SI{1700}{\g} \\
\SI{1.7e3}{\g} \)
\SI{1.234}{\metre}\\
\SI[locale = DE]{6.789}{\metre}
\( \SI{1.234}{\metre}\\
\SI[locale = DE]{6.789}{\metre} \)
% In English by default
\SIlist{1;2;3}{\metre} \\
\SIrange{1}{10}{\degreeCelsius} \\
\selectlanguage{french}%
\SIlist{1;2;3}{\metre} \\
\SIrange{1}{10}{\degreeCelsius} \\
\selectlanguage{german}%
\SIlist{1;2;3}{\metre} \\
\SIrange{1}{10}{\degreeCelsius} \\
\( % In English by default
\SIlist{1;2;3}{\metre} \\
\SIrange{1}{10}{\degreeCelsius} \\
\selectlanguage{french}%
\SIlist{1;2;3}{\metre} \\
\SIrange{1}{10}{\degreeCelsius} \\
\selectlanguage{german}%
\SIlist{1;2;3}{\metre} \\
\SIrange{1}{10}{\degreeCelsius} \\ \)
\SI{7.3}{\Hz} \\
\SI[parse-units = false]{7.3}{\Hz} \\
\SI[
parse-numbers = false,
parse-units = false
]{7.3}{\Hz}
\( \SI{7.3}{\Hz} \\
\SI[parse-units = false]{7.3}{\Hz} \\
\SI[
parse-numbers = false,
parse-units = false
]{7.3}{\Hz} \)
\si{\kWh} \\
\si{\kWh\per\metre}
\( \si{\kWh} \\
\si{\kWh\per\metre} \)
\si{\KWH\per\metre}\\
\si{kWh.m^{-1}}
\( \si{\KWH\per\metre}\\
\si{kWh.m^{-1}} \)
\si{\candela\per\kWh}
\( \si{\candela\per\kWh} \)
\si{\candela\per\kilo\watt\per\hour} \\
\si[sticky-per]{\candela\per\kWh}
\( \si{\candela\per\kilo\watt\per\hour} \\
\si[sticky-per]{\candela\per\kWh} \)
A space for \SI{10}{\percent}\\
and also for \SI{100}{\degreeCelsius}\\
but not for \ang{1.23}.
\( A space for \SI{10}{\percent}\\
and also for \SI{100}{\degreeCelsius}\\
but not for \ang{1.23}. \)
Units should \textbf{not be bold: \SI{54}{\farad}}\\
\textbf{But perhaps in a running block,\\
it might look better: \SI[detect-weight]{54}{\farad}}
\( Units should \textbf{not be bold: \SI{54}{\farad}}\\
\textbf{But perhaps in a running block,\\
it might look better: \SI[detect-weight]{54}{\farad}} \)
\( \si{\metre\second} = \text{metre second} \) \\
\( \si{\milli\second} = \text{millisecond} \) \\
\sisetup{inter-unit-product = \ensuremath { { } \cdot { } } }
\( \si{\metre\second} = \text{metre second} \) \\
\( \si{\milli\second} = \text{millisecond} \)
\( \( \si{\metre\second} = \text{metre second} \) \\
\( \si{\milli\second} = \text{millisecond} \) \\
\sisetup{inter-unit-product = \ensuremath { { } \cdot { } } }
\( \si{\metre\second} = \text{metre second} \) \\
\( \si{\milli\second} = \text{millisecond} \) \)
\si{\joule\per\mole\per\kelvin}\\
\si[per-mode = fraction]{\joule\per\mole\per\kelvin}\\
\si[per-mode = symbol]{\joule\per\mole\per\kelvin}
\( \si{\joule\per\mole\per\kelvin}\\
\si[per-mode = fraction]{\joule\per\mole\per\kelvin}\\
\si[per-mode = symbol]{\joule\per\mole\per\kelvin} \)
\SIrange{1}{5}{\metre} long.
\( \SIrange{1}{5}{\metre} long. \)