Measure distance to one satellite
That places you somewhere on a sphere centered on the satellite.
Inventions & Technology
Your phone knows where you are to within a few meters. The reason involves Einstein. GPS satellites are high enough and fast enough that relativity changes their clock rates measurably.
Quick answer
GPS is accurate because it measures signal travel time from atomic-clock satellites. Nanosecond timing becomes meter-level positioning, after correcting for relativity, atmosphere, and satellite geometry. Without relativistic corrections, GPS would drift by kilometers per day.

The hook
GPS is fundamentally a timing system.
The hidden mechanism
Four satellites solve both position and receiver clock error.
The twist
Relativity creates a net satellite clock drift of about 38 microseconds per day.
Common mistake
Satellites do not track your phone; your phone calculates locally.
Inventions & Technology
GPS is accurate because atomic clocks, satellite geometry, and Einstein's relativity are all built into the system.
The Common Misunderstanding
The real explanation is more interesting because it shows the system, pressure, and tradeoffs behind the event.
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