I'm working on a conceptual planet that is tidally locked to its star, and that there would be a ring or "twilight" zone of life on the planet. But because of this, there would be no sunset or sunrise. How would society be different than ours? Would they not be capable of keeping track of time? Would they have hours, days, months, years...?

  • $\begingroup$ @Vincent This is not a duplicate of the linked article "A world without natural time measures". The other article rules out natural time measures where this one does not. Also, the other article is about the effects of being unable to measure time, where this question instead asks "How do you measure time"? $\endgroup$
    – Spencer
    Commented Jul 27, 2017 at 22:06
  • $\begingroup$ Just being tidally locked does not mean there will be no sunrise or sunset anywhere on the planet. If the planet's orbit is anything other than perfectly circular, or if its axis of rotation is anything but perfectly perpendicular to its orbit, it will undergo libration and/or nutation, and the sun will wobble back-and-forth in the sky. Near the terminator, this would result in regular sunrises and sunsets. $\endgroup$ Commented Aug 7, 2017 at 17:22

2 Answers 2


First you need to answer if there will be another other celestially periodic behavior. Are there moons? Do they orbit in regular patterns? Are there other planets in the system that are detectable? Is the planet in a perfectly circular orbit?

Lacking celestial observations I would think that the people would judge time based on some biological metric. Most likely judging their "year" to be dependent on their most commonly grown crop. Or some other local flora or fauna's life cycle.

As they got more advanced they would most likely discover periodic motion of pendulums and such and tune their time keeping to a specific length pendulum. Until they got sufficiently advanced enough to develop atomic clocks.


The stars still rise and set.

If, as you say, the planet is tidally locked with its sun, it's still rotating with respect to the celestial reference frame, once a year.

In places where it's dark enough to be seen (i.e. on the planet's dark side) the stars will have apparent paths in the sky, taking half a year to go from one horizon of the dark side to the other.

The only trick is to find a reason to go over to the dark side -- perhaps hunter-gatherers will follow prey just over from the terminator, where it isn't entirely too cold, and notice the stars slowly rising and setting.

This is just the way early humans learned to measure time. Perhaps eventually some people will become "priests" of a sort by specializing in tracking the stars.

Star tracks over Paranal

Source: Wikimedia Commons


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