SI Units: Difference between revisions

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NOTE: YOU CANT USE UPPER CASE LETTERS IN MATH FUNCTIONS


y=x+2
<math>1 m = c * \frac{1}{299792458 s}</math>


<math>1 ml = 1 cm^2</math>


<math>1 kg = 1.000025 L</math> water


:* Δ''ν''(<sup>133</sup>Cs)<sub>hfs</sub> = {{gaps|9|192|631|770|s<sup>−1</sup>}}
<math>1 mol = 6.022e23</math> particles
:* ''c'' = {{gaps|299|792|458|s<sup>−1</sup>•m}}
 
:* ''h'' = {{gaps|6.626|06X|×|10<sup>−34</sup>|s<sup>−1</sup>•m<sup>2</sup>•kg}}
<math>E = hv</math>
:* ''e'' = {{gaps|1.602|17X|×|10<sup>−19</sup>|s•A}}
 
:* ''k'' = {{gaps|1.380|65X|×|10<sup>−23</sup>|s<sup>−2</sup>•m<sup>2</sup>•kg•K<sup>−1</sup>}}
<math>λν = c</math>
:* ''N''<sub>A</sub> = {{gaps|6.022|14X|×|10<sup>23</sup>|mol<sup>−1</sup>}}
 
:* ''K''<sub>cd</sub> = 683 s<sup>3</sup>•m<sup>−2</sup>•kg<sup>−1</sup>•cd•sr
*c = speed of light 299792458 (m/s)
*E = energy of photon
*v = frequency
*h = Planck constant = 6.62606e−34 (J•s) or (m^2•kg)/s
*λ = wavelength
*J = joule
*e = charge = 1.60217e−19 (C) or (s•A)
*C = coulomb =
*k = boltzmann = 1.38065e−23 (J/K) or (m^2•kg•s^−2)/K
*K = kelvin
*NA = Avogadro# = 6.02214e23 (mol−1).
 
 
{| class="wikitable"
|-
! {{TeX}} Syntax ([[#Forced_PNG_rendering|forcing PNG]])
! {{TeX}} Rendering
! HTML Syntax
! HTML Rendering
|-
| <code><nowiki><math>\alpha</math></nowiki></code>
| <math>\alpha</math>
| <code><nowiki>{{math|<VAR>&amp;alpha;</VAR>}}</nowiki></code>
| {{math|<VAR>&alpha;</VAR>}}
|-
| <code><nowiki><math> f(x) = x^2\,</math></nowiki></code>
| <math> f(x) = x^2\,</math>
| <code><nowiki>{{math|''f''(<var>x</var>) {{=}} <var>x</var><sup>2</sup>}}</nowiki></code>
| {{math|''f''(<var>x</var>) {{=}} <var>x</var><sup>2</sup>}}
|-
| <code><nowiki><math>\sqrt{2}</math></nowiki></code>
| <math>\sqrt{2}</math>
| <code><nowiki>{{math|{{radical|2}}}}</nowiki></code>
| {{math|{{radical|2}}}}
|-
| <code><nowiki><math>\sqrt{1-e^2}</math></nowiki></code>
| <math>\sqrt{1-e^2}</math>
| <code><nowiki>{{math|{{radical|1 &amp;minus; ''e''&amp;sup2;}}}}</nowiki></code>
| {{math|{{radical|1 &minus; ''e''&sup2;}}}}
|}
 
 
 
 
<math>
  \operatorname{erfc}(x) =
  \frac{2}{\sqrt{\pi}} \int_x^{\infty} e^{-t^2}\,dt =
  \frac{e^{-x^2}}{x\sqrt{\pi}}\sum_{n=0}^\infty (-1)^n \frac{(2n)!}{n!(2x)^{2n}}
</math>
 
  \operatorname{erfc}(x) =
  \frac{2}{\sqrt{\pi}} \int_x^{\infty} e^{-t^2}\,dt =
  \frac{e^{-x^2}}{x\sqrt{\pi}}\sum_{n=0}^\infty (-1)^n \frac{(2n)!}{n!(2x)^{2n}}

Latest revision as of 00:10, 16 July 2013

NOTE: YOU CANT USE UPPER CASE LETTERS IN MATH FUNCTIONS

water

particles

Failed to parse (syntax error): λν = c

  • c = speed of light 299792458 (m/s)
  • E = energy of photon
  • v = frequency
  • h = Planck constant = 6.62606e−34 (J•s) or (m^2•kg)/s
  • λ = wavelength
  • J = joule
  • e = charge = 1.60217e−19 (C) or (s•A)
  • C = coulomb =
  • k = boltzmann = 1.38065e−23 (J/K) or (m^2•kg•s^−2)/K
  • K = kelvin
  • NA = Avogadro# = 6.02214e23 (mol−1).


TeX Syntax (forcing PNG) TeX Rendering HTML Syntax HTML Rendering
<math>\alpha</math> {{math|<VAR>&alpha;</VAR>}} α
<math> f(x) = x^2\,</math> {{math|''f''(<var>x</var>) {{=}} <var>x</var><sup>2</sup>}} f(x) = x2
<math>\sqrt{2}</math> {{math|{{radical|2}}}} 2
<math>\sqrt{1-e^2}</math> {{math|{{radical|1 &minus; ''e''&sup2;}}}} 1 − e²



 \operatorname{erfc}(x) =
 \frac{2}{\sqrt{\pi}} \int_x^{\infty} e^{-t^2}\,dt =
 \frac{e^{-x^2}}{x\sqrt{\pi}}\sum_{n=0}^\infty (-1)^n \frac{(2n)!}{n!(2x)^{2n}}