Fun fact:

A GNSS satellite completes ~2 orbits per day, but your $FRY Satellite Miner can see 8–12 different satellites at once.

More sky = more precision. #fGNSS #SkyMath

GNSS satellites zip around Earth at ~3.9 km/s.

Your ground miner turns that sprint into picosecond-level timing for day-to-day tasks—space speed, backyard precision.
#fGNSS #TimingMagic

1884: first time zones agreed in D.C.

2025: community GNSS sensors help refine local timing without centralized servers.

Progress keeps ticking.
#Timekeeping #fGNSS

Answer: TRUE.

A GNSS receiver’s disciplined clock can “holdover” precise time for several hours after satellite lock drops, thanks to its internal oscillator. Accuracy eventually drifts—but the stability window is surprisingly long.
#FryTrivia #fGNSS #TimeNerds

TRUE or FALSE: GNSS timing can stay accurate for several hours after satellite lock is lost.

Reply T/F—answer revealed at 4 PM.
#FryTrivia #fGNSS

“Dilution of precision” (DOP) in GNSS ≠ bad GPS chip.
It’s satellite geometry noise.

Lower DOP = better fix. Now you know.
#TechTerm #fGNSS

GNSS satellites circle Earth twice a day.
How many satellites must your receiver see for a 3-D fix?

A) 2 B) 4 C) 6

Reply with your guess ⬇️
#FryTrivia #fGNSS