Difference between revisions of "Talk:3017: Neutrino Modem"
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If you ping every IPv4 address on the planet once a second, 3-4 packets will be received per day. Unfortunately, the packet loss is bidirectional, so your chance of hearing the reply is equally low. So maybe when the earth is 16 times older than it is now you will have a reply. [[User:Divad27182|Divad27182]] ([[User talk:Divad27182|talk]]) 23:13, 27 November 2024 (UTC) | If you ping every IPv4 address on the planet once a second, 3-4 packets will be received per day. Unfortunately, the packet loss is bidirectional, so your chance of hearing the reply is equally low. So maybe when the earth is 16 times older than it is now you will have a reply. [[User:Divad27182|Divad27182]] ([[User talk:Divad27182|talk]]) 23:13, 27 November 2024 (UTC) | ||
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| + | That packet loss rate (detecting only 1 in 100 trillion) is actually a very high rate of neutrino detection, isn't it? And that's assuming a "packet" is a single neutrino. [[User:DKMell|DKMell]] ([[User talk:DKMell|talk]]) 23:33, 27 November 2024 (UTC) | ||
Revision as of 23:33, 27 November 2024
If someone wants to describe the logo on the Neutrino Modem in the transcript, have at it. Barmar (talk) 22:42, 27 November 2024 (UTC)
I wonder how long it took Cueball to send and receive enough packets to be able to calculate that average ping time? Barmar (talk) 22:47, 27 November 2024 (UTC)
If you ping every IPv4 address on the planet once a second, 3-4 packets will be received per day. Unfortunately, the packet loss is bidirectional, so your chance of hearing the reply is equally low. So maybe when the earth is 16 times older than it is now you will have a reply. Divad27182 (talk) 23:13, 27 November 2024 (UTC)
That packet loss rate (detecting only 1 in 100 trillion) is actually a very high rate of neutrino detection, isn't it? And that's assuming a "packet" is a single neutrino. DKMell (talk) 23:33, 27 November 2024 (UTC)
