New Crowdin translations by GitHub Action

2025-06-25 20:22:39 +00:00 · 2024-04-03 13:32:31 +00:00
parent d1f19023da
commit fbbc9016e5
87 changed files with 203 additions and 232 deletions
--- a/i18n/cs/about/notices.md
+++ b/i18n/cs/about/notices.md
@ -24,10 +24,9 @@ Unless otherwise noted, all **content** on this website is made available under

 This does not include third-party code embedded in this repository, or code where a superseding license is otherwise noted. The following are notable examples, but this list may not be all-inclusive:

-* [MathJax](https://github.com/privacyguides/privacyguides.org/blob/main/theme/assets/javascripts/mathjax.js) is licensed under the [Apache License 2.0](https://github.com/privacyguides/privacyguides.org/blob/main/docs/assets/javascripts/LICENSE.mathjax.txt).
-* The [Bagnard](https://github.com/privacyguides/brand/tree/main/WOFF/bagnard) heading font is licensed under the [SIL Open Font License 1.1](https://github.com/privacyguides/brand/blob/main/WOFF/bagnard/LICENSE.txt).
-* The [Public Sans](https://github.com/privacyguides/brand/tree/main/WOFF/public_sans) font used for most text on the site is licensed under the terms detailed [here](https://github.com/privacyguides/brand/blob/main/WOFF/public_sans/LICENSE.txt).
-* The [DM Mono](https://github.com/privacyguides/brand/tree/main/WOFF/dm_mono) font used for monospaced text on the site is licensed under the [SIL Open Font License 1.1](https://github.com/privacyguides/brand/blob/main/WOFF/dm_mono/LICENSE.txt).
+* The [Bagnard](https://github.com/privacyguides/brand/tree/67166ed8b641d8ac1837d0b75329e02ed4056704/fonts/Bagnard) heading font is licensed under the [SIL Open Font License 1.1](https://github.com/privacyguides/brand/blob/67166ed8b641d8ac1837d0b75329e02ed4056704/fonts/Bagnard/LICENSE.txt).
+* The [Public Sans](https://github.com/privacyguides/brand/tree/67166ed8b641d8ac1837d0b75329e02ed4056704/fonts/Public%20Sans) font used for most text on the site is licensed under the terms detailed [here](https://github.com/privacyguides/brand/blob/67166ed8b641d8ac1837d0b75329e02ed4056704/fonts/Public%20Sans/LICENSE.txt).
+* The [DM Mono](https://github.com/privacyguides/brand/tree/67166ed8b641d8ac1837d0b75329e02ed4056704/fonts/DM%20Mono) font used for monospaced text on the site is licensed under the [SIL Open Font License 1.1](https://github.com/privacyguides/brand/blob/67166ed8b641d8ac1837d0b75329e02ed4056704/fonts/DM%20Mono/LICENSE.txt).

 This means that you can use the human-readable content in this repository for your own project, per the terms outlined in the Creative Commons Attribution-NoDerivatives 4.0 International Public License text. You may do so in any reasonable manner, but not in any way that suggests Privacy Guides endorses you or your use. You **may not** use the Privacy Guides branding in your own project without express approval from this project. Privacy Guides's brand trademarks include the "Privacy Guides" wordmark and shield logo.

--- a/i18n/cs/android.md
+++ b/i18n/cs/android.md
@ -201,7 +201,7 @@ A few more tips for purchasing a Google Pixel:
 - If you're after a bargain on a Pixel device, we suggest buying an "**a**" model, just after the next flagship is released. Discounts are usually available because Google will be trying to clear their stock.
 - Consider price beating options and specials offered at physical stores.
 - Look at online community bargain sites in your country. These can alert you to good sales.
- Google provides a list showing the [support cycle](https://support.google.com/nexus/answer/4457705) for each one of their devices. The price per day for a device can be calculated as: $\text{Cost} \over \text {EOL Date}-\text{Current Date}$, meaning that the longer use of the device the lower cost per day.
+- Google provides a list showing the [support cycle](https://support.google.com/nexus/answer/4457705) for each one of their devices. The price per day for a device can be calculated as: <math xmlns="http://www.w3.org/1998/Math/MathML" display="inline" class="tml-display" style="display:inline math;"> <mfrac> <mtext>Cost</mtext> <mrow> <mtext>End of Life Date</mtext> <mo>−</mo> <mtext>Current Date</mtext> </mrow> </mfrac> </math> , meaning that the longer use of the device the lower cost per day.
 - If the Pixel is unavailable in your region, the [NitroPhone](https://shop.nitrokey.com/shop) can be shipped globally.

 ## General Apps
--- a/i18n/cs/basics/passwords-overview.md
+++ b/i18n/cs/basics/passwords-overview.md
@ -82,11 +82,11 @@ We recommend using [EFF's large wordlist](https://eff.org/files/2016/07/18/eff_l

 To demonstrate how strong diceware passphrases are, we'll use the aforementioned seven word passphrase (`viewable fastness reluctant squishy seventeen shown pencil`) and [EFF's large wordlist](https://eff.org/files/2016/07/18/eff_large_wordlist.txt) as an example.

-One metric to determine the strength of a diceware passphrase is how much entropy it has. The entropy per word in a diceware passphrase is calculated as $\text{log}_2(\text{WordsInList})$ and the overall entropy of the passphrase is calculated as $\text{log}_2(\text{WordsInList}^\text{WordsInPhrase})$.
+One metric to determine the strength of a diceware passphrase is how much entropy it has. The entropy per word in a diceware passphrase is calculated as <math> <mrow> <msub> <mtext>log</mtext> <mn>2</mn> </msub> <mo form="prefix" stretchy="false">(</mo> <mtext>WordsInList</mtext> <mo form="postfix" stretchy="false">)</mo> </mrow> </math> and the overall entropy of the passphrase is calculated as: <math> <mrow> <msub> <mtext>log</mtext> <mn>2</mn> </msub> <mo form="prefix" stretchy="false">(</mo> <msup> <mtext>WordsInList</mtext> <mtext>WordsInPhrase</mtext> </msup> <mo form="postfix" stretchy="false">)</mo> </mrow> </math>

-Therefore, each word in the aforementioned list results in ~12.9 bits of entropy ($\text{log}_2(7776)$), and a seven word passphrase derived from it has ~90.47 bits of entropy ($\text{log}_2(7776^7)$).
+Therefore, each word in the aforementioned list results in ~12.9 bits of entropy (<math> <mrow> <msub> <mtext>log</mtext> <mn>2</mn> </msub> <mo form="prefix" stretchy="false">(</mo> <mn>7776</mn> <mo form="postfix" stretchy="false">)</mo> </mrow> </math>), and a seven word passphrase derived from it has ~90.47 bits of entropy (<math> <mrow> <msub> <mtext>log</mtext> <mn>2</mn> </msub> <mo form="prefix" stretchy="false">(</mo> <msup> <mn>7776</mn> <mn>7</mn> </msup> <mo form="postfix" stretchy="false">)</mo> </mrow> </math>).

-The [EFF's large wordlist](https://eff.org/files/2016/07/18/eff_large_wordlist.txt) contains 7776 unique words. To calculate the amount of possible passphrases, all we have to do is $\text{WordsInList}^\text{WordsInPhrase}$, or in our case, $7776^7$.
+The [EFF's large wordlist](https://eff.org/files/2016/07/18/eff_large_wordlist.txt) contains 7776 unique words. To calculate the amount of possible passphrases, all we have to do is <math> <msup> <mtext>WordsInList</mtext> <mtext>WordsInPhrase</mtext> </msup> </math>, or in our case, <math><msup><mn>7776</mn><mn>7</mn></msup></math>.

 Let's put all of this in perspective: A seven word passphrase using [EFF's large wordlist](https://eff.org/files/2016/07/18/eff_large_wordlist.txt) is one of ~1,719,070,799,748,422,500,000,000,000 possible passphrases.