If you mean the largest moon of the Neptune - its orbital period is -5.877 d (retrograde motion)
Triton is a moon of Neptune and is tidally locked, meaning it rotates once on its axis in the same amount of time it takes to orbit Neptune, about 5.9 Earth days. This synchronous rotation causes the same side of Triton to always face Neptune.
Ganymede's orbital period around Jupiter is 7.154 Earth days.
A planet's orbital radius directly affects its orbital period through Kepler's third law of planetary motion. The farther a planet is from the star it orbits, the longer its orbital period will be, assuming all other factors remain constant. This relationship is expressed mathematically as T^2 ∝ r^3, where T is the orbital period and r is the orbital radius.
The orbital period of Deimos, one of Mars' moons, is approximately 30.3 hours.
The orbital period of Mars is 687 Earth days, or 1.88 Earth years. That is about 668 sols (Martian days).
Triton's revolution period is the same as its orbital period, or approximately 5.877 days.
Triton is a moon of Neptune and is tidally locked, meaning it rotates once on its axis in the same amount of time it takes to orbit Neptune, about 5.9 Earth days. This synchronous rotation causes the same side of Triton to always face Neptune.
The orbital period of Jupiter is 4332.71 days.
2007or10's orbital period is 552.52 years
Haumea's orbital period is 283 or 103,468 days
The orbital period of the moon [around the earth] is 27.321582 days.
Ganymede's orbital period around Jupiter is 7.154 Earth days.
Orbital period is the time it takes a planet to go around its star once.
the orbital period of Saturn in earth years are 89years
A planet's orbital radius directly affects its orbital period through Kepler's third law of planetary motion. The farther a planet is from the star it orbits, the longer its orbital period will be, assuming all other factors remain constant. This relationship is expressed mathematically as T^2 ∝ r^3, where T is the orbital period and r is the orbital radius.
A planet's orbital period is also known as its year.
what is the term used for the orbital period of an object with respect to the stars?