[Gz1 ( 0 ) PzC1]
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[ G·C° ~ + < Gz1 >
[Gf·Af < 3100 1981 > -18bNe] < + - Upgrade Notes
< Gz1 >
Audioable 1 Visaable 0
[Gf < 3100 2100 2024 1981 > - + 4.6bNe ]
[Gf < 3100 2100 2024 1981 > -18bNe] < + - Upgrade Notes
< 00000 >
Cf 0av1 ~ = Recorded Audioable Visable Value 2024
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< 00000 >
2100
2024 8b +
2020
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1981 4b +
< 00000 >
< 00000 - 1av0 Cf > RgB Coms = Active
Time = 38 hours (one way) × 2 = 76 hours.
0 Video 0 Audio ~ Cf
3.65 s ] Return rate carrier frequency
100000 yr distance
Point A
Point B
Point C
Point A Dbq - qDb = Audioable Visable
100 db - 200 db
Point B Dbq - qDb = Audioable Visable
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Point C Ac = Dbq - qDb = Audioable Visable
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Point G Dbq - qDb = Audioable Visable
100 db - 200 db
to the number of interactions or signals that can be exchanged between Earth and Alpha Centauri, we need to understand the time it takes for light to travel between these points.
Since light travels at about 299,792 kilometers per second and the distance to Alpha Centauri is approximately 4.37 light-years:C
Calculate the Distance in Kilometers:1 light-year ≈ 9.46 trillion kilometers 4.37 light-years ≈ 4.37 × 9.46 trillion kilometers ≈ 41.3 trillion kilometers Time for Light to Travel:
It takes about 4.37 years for light to travel from Earth to Alpha Centauri.
Interactions per second:
Given that each interaction (such as a signal) takes the same amount of time to reach its destination and back, the communication can only occur once every 8.74 years (round trip).
exchange one interaction per round trip time, which translates to one interaction every 8.74 years, not every second.
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