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authorPrefetch2022-02-11 17:57:52 +0100
committerPrefetch2022-02-11 17:57:52 +0100
commit3a78748e8e4aacefbbc43fb7304fa50bbcad3864 (patch)
treec7072c7b1b818c8c04c2452a52b9da2a845fc042 /content/know/concept/electromagnetic-wave-equation
parent43c5b696aaf421dec7aee967002999d9145da35e (diff)
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Diffstat (limited to 'content/know/concept/electromagnetic-wave-equation')
-rw-r--r--content/know/concept/electromagnetic-wave-equation/index.pdc2
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diff --git a/content/know/concept/electromagnetic-wave-equation/index.pdc b/content/know/concept/electromagnetic-wave-equation/index.pdc
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--- a/content/know/concept/electromagnetic-wave-equation/index.pdc
+++ b/content/know/concept/electromagnetic-wave-equation/index.pdc
@@ -122,7 +122,7 @@ In fact, thanks to linearity, these **plane waves** can be treated as
terms in a Fourier series, meaning that virtually
*any* function $f(\vb{k} \cdot \vb{r} - \omega t)$ is a valid solution.
-Keep in mind that in reality, $\vb{E}$ and $\vb{B}$ are real,
+Keep in mind that in reality $\vb{E}$ and $\vb{B}$ are real,
so although it is mathematically convenient to use plane waves,
in the end you will need to take the real part.