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Display information for equation id:math.7622.6 on revision:7622

* Page found: Abbe sine condition (eq math.7622.6)

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Occurrences on the following pages:

Hash: abafb7349346564544de626343287ed3

TeX (original user input):

k^i_x = \frac{k_x}{M}

TeX (checked):

k_{x}^{i}={\frac {k_{x}}{M}}

LaTeXML (experimental; uses MathML) rendering

MathML (2.445 KB / 601 B) :

k x i = k x M superscript subscript 𝑘 𝑥 𝑖 subscript 𝑘 𝑥 𝑀 {\displaystyle k_{x}^{i}={\frac{k_{x}}{M}}}
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SVG (5.088 KB / 2.206 KB) :

k Subscript x Superscript i Baseline equals StartFraction k Subscript x Baseline Over upper M EndFraction

MathML with SVG or PNG fallback (recommended for modern browsers and accessibility tools) rendering

MathML (0 B / 8 B) :

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SVG (0 B / 8 B) :


PNG (0 B / 8 B) :


Translations to Computer Algebra Systems

Translation to Maple

In Maple: (k[x])^(i)=(k[x])/(M)

Information about the conversion process:

I: You use a typical letter for a constant [the imaginary unit == the principal square root of -1].

We keep it like it is! But you should know that Maple uses I for this constant.

If you want to translate it as a constant, use the corresponding DLMF macro \iunit


i: the imaginary unit == the principal square root of -1 was translated to: i


Translation to Mathematica

In Mathematica: (Subscript[k, x])^(i)=Divide[Subscript[k, x],M]

Information about the conversion process:

I: You use a typical letter for a constant [the imaginary unit == the principal square root of -1].

We keep it like it is! But you should know that Mathematica uses I for this constant.

If you want to translate it as a constant, use the corresponding DLMF macro \iunit


i: the imaginary unit == the principal square root of -1 was translated to: i


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