Thomas Arend on Nostr: 11. On a globe the distance would be c R * acos( cos(a)* cos(b) + sin(a) * sin(b) * ...
11. On a globe the distance would be c R * acos( cos(a)* cos(b) + sin(a) * sin(b) * cos(γ) )
In my case I got
A = . (lat = 50.62091719914353, lon = 6.961698755042375)
and
B = . ( lat = 50.62096229478388, lon = 6.9615317875405385)
and 12.67 m from Google.
The actual value is approx. 12 m with roof. You can't pick the positions of two points on Google and thus measure the distance very well. That's why I don't care about small differences.
...
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In my case I got
A = . (lat = 50.62091719914353, lon = 6.961698755042375)
and
B = . ( lat = 50.62096229478388, lon = 6.9615317875405385)
and 12.67 m from Google.
The actual value is approx. 12 m with roof. You can't pick the positions of two points on Google and thus measure the distance very well. That's why I don't care about small differences.
...
/3