Displaying equations using Tex

Discussion in 'Physics & Math' started by Pete, Dec 20, 2006.

  1. Confused2 Registered Senior Member

    Messages:
    609
    Hm. (Posting in bold are we?). Texmaker doesn't seem to want to play. Going back I see the Schneibster has snuck a link into 'This' and 'This' isn't Texmaker. That ('This') looks minimalist. I'll have a play with it. Thanks.
     
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  3. Confused2 Registered Senior Member

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    609
    \(e^{i\theta}=\cos(\theta)+i\sin(\theta)\)
    Yaay. Mighty aches from tiny toecorns grow.
     
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  5. Schneibster Registered Member

    Messages:
    390
    Sure. If you learn the basics of LaTeX you'll find that this minimal solution will give you pretty much all you can handle (but maybe not those unbelievable things rpenner has been posting; I'm still pretty impressed with that stuff).
     
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  7. Confused2 Registered Senior Member

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    609
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  8. LaurieAG Registered Senior Member

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    586
    Test

    Standard wavelength \( {\lambda} = \frac{h}{m c}\)
    Reduced wavelength \(\frac{\lambda}{2 \pi} = \frac{\hbar}{m c}\)
     
  9. icarus2 Registered Senior Member

    Messages:
    132
    test
    1) \(\Omega _M = - 0.38( \pm 0.22)\)

    2) \( \Omega _R h^2 \approx 4.16 \times 10^{ - 5}\),

    3) \(\Omega _\Lambda = 0\)

    4) \frac{-b\pm\sqrt{b^2-4ac}}{2a}

    5)

    \( {U_{gs}} = | - \frac{3}{5}\frac{{G{M^2}}}{{{R_{gs}}}}| = M{c^2} \)

    {U_{gs}} = | - \frac{3}{5}\frac{{G{M^2}}}{{{R_{gs}}}}| = M{c^2}
     
    Last edited: Oct 2, 2016
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  10. Dr_Toad It's green! Valued Senior Member

    Messages:
    2,527
    I was told that my site's \frac was broken not too long ago. \lfrac works still, but I haven't had the need or the energy to track down every package and all that...
     
  11. icarus2 Registered Senior Member

    Messages:
    132
    \( d{s^2} = - (1 - \frac{{2GM}}{{{c^2}r}}){c^2}d{t^2} + \frac{1}{{(1 - \frac{{2GM}}{{{c^2}r}})}}d{r^2} + {r^2}d{\theta ^2} + {r^2}{\sin ^2}\theta d{\phi ^2} \)


     
    Last edited: Oct 2, 2016
  12. OceanBreeze Registered Member

    Messages:
    32
    can someone please troubleshoot this and see why the latex commands are not working?
    I have tested it with several tex editors and it displays fine on them, but not here. Thanks

    \( \frac { 1 }{ \sqrt { { \left[ 1-\frac { { \omega }^{ 2 } }{ { \omega }_{ c }^{ 2 } } \right] }^{ 2 }+\quad { \eta }^{ 2 } } } \)

    The plot thickens! Sometimes it shows up as a proper equation, and sometimes as just the tex commands. wtf?
     
  13. rpenner Fully Wired Valued Senior Member

    Messages:
    4,833
    The current javascript/CSS-based renderer only runs at the time of page loads. Since the "submit new/edited post and redisplay page" logic of this side does so without a full load of the page, updates don't get the LaTeX-to-HTML Display treatment until you refresh the page.
     
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  14. OceanBreeze Registered Member

    Messages:
    32
    Ah, I think that was what I was seeing; the equation stays in the tex command format until the page is refreshed. But I never see it displayed as an equation in the post preview, only after posting. Is that normal?
    Thanks for your reply!
     
  15. danshawen Valued Senior Member

    Messages:
    3,951
    My iPad doesn't show even a single correctly formatted equation here, even though my Mac does, which is why I don't bother.
     
  16. icarus2 Registered Senior Member

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    132
    [ tex ]
    \alpha
    [/tex ]

    \(\sin \alpha \)

    <tex> a^n </tex>

    $ \sin \alpha $
     
  17. icarus2 Registered Senior Member

    Messages:
    132
    [ tex ]
    \alpha
    [/tex ]

    sin&#x2061;&#x03B1;'>sinα sin⁡α \sin \alpha

    < tex> a^n </tex>

    \( a^n \)
     
  18. RJBeery Natural Philosopher Valued Senior Member

    Messages:
    4,222
    I want to go inline with \(E=mc^2\)
     
  19. icarus2 Registered Senior Member

    Messages:
    132
    \( {U_{gs}} = - \frac{3}{5}\frac{{G{M^2}}}{R} \)

    \({U_{gs}} = - \frac{3}{5}\frac{{G{M^2}}}{R}\)
     
  20. ArafuraOpal Registered Member

    Messages:
    20
    I have tried to post this
    <img src="/cgi-bin/mathtex.cgi?\displaystyle\sum_{n=1}^4 \left( \sum_{m=1}^n \left( \frac{a \cos\left( {3^{( m+(n^2-n)/2)}} \theta / b \right) }{3^{(m+(n^2-n)/2)}} \right) \right)">
     
  21. ArafuraOpal Registered Member

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    20
    \( \sum_{n=1}^40 \left( \sum_{m=1}^n \left( \frac {a \sin \left( {3^{( m+(n^2-n)/2)}} \theta / b + l(\frac {2 \pi}{3}) \right) }{3^{(m+(n^2-n)/2)}} \right) \right) \)
     
  22. ArafuraOpal Registered Member

    Messages:
    20
    \(\displaystyle\sum_{n=1}^4 \left( \sum_{m=1}^n \left( \frac{a \cos\left( {3^{( m+(n^2-n)/2)}} \theta / b \right) }{3^{(m+(n^2-n)/2)}} \right) \right)\)

    \( \displaystyle\sum_{n=1}^{40} \left( \sum_{m=1}^n \left( \frac{a \sin\left( {3^{( m+(n^2-n)/2)}} \theta / b + l \times (\frac{2 \pi}{3}) \right) }{3^{(m+(n^2-n)/2)}} \right) \right), \ l=-1,0,1 \)

    \( \displaystyle \sum_{n=1}^8 \left( \sum_{m=1}^n \left( \frac{a \left( \sin \left( {3^{( m+(n^2-n)/2)}} \theta / b + k ( \frac{ \pi}{3} ) + \cos \left( {3^{( m+(n^2-n)/2)}} \theta / b + k( \frac{ \pi}{3} ) \right) \right) }{2 * 3^{(m+(n^2-n)/2)}} \right) \right), \ k=-1,1 \)

    where a and b are constants and \(- \frac{\pi b}{3^{(n^2 - n)/2}} \leq \theta \leq \frac{\pi b}{3^{(n^2 – n)/2}}\)
     
    Last edited: Oct 21, 2017
  23. ArafuraOpal Registered Member

    Messages:
    20
    \(\sum_{n=1}^4 \left( \sum_{m=1}^n \left( \frac {a \cos \left( {3^{( m+(n^2-n)/2)}} \theta / b \right) }{3^{(m+(n^2-n)/2)}} \right) \right)\)

    \(\sum_{n=1}^40 \left( \sum_{m=1}^n \left( \frac {a \sin \left( {3^{( m+(n^2-n)/2)}} \theta / b + l(\frac {2 \pi}{3}) \right) }{3^{(m+(n^2-n)/2)}} \right) \right) , l=-1,0,1 \)

    \(\sum_{n=1}^4 \left( \sum_{m=1}^n \left( \frac {a \left( \sin \left( {3^{( m+(n^2-n)/2)}} \theta / b + k(\frac { \pi}{3} ) + \cos \left( {3^{( m+(n^2-n)/2)}} \theta / b + k(\frac { \pi}{3} ) \right) \right) }{2 \times 3^{(m+(n^2-n)/2)}} \right) \right) , k=-1,1\)

    where a and b are constants and \(- \frac {\pi b}{3^{(n^2 - n)/2}} \leq \theta \leq \frac {\pi b}{3^{(n^2 – n)/2}}\)
     

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