The Earth completes a revolution in its orbit around the sun every 365.25 days. (rounded)
chocolate pie... but that was 3 years ago...
The time it takes a planet or satellite to revolve once is called its day.
A year (or orbital period) is defined as the period it takes a planet to orbit the Sun.
That is that planet's "year", or its orbital period.
It differs from planet to planet
The period of a planet is the time it takes for the planet to complete one orbit around its parent star. This period is typically measured in Earth days or years, depending on the length of the planet's orbit.
To find the number of revolution days of a planet, you can use the formula: revolution days = orbital period / rotation period. The orbital period is how long it takes for the planet to complete one orbit around the sun, while the rotation period is how long it takes for the planet to rotate on its axis. This formula will give you the number of days it takes for the planet to complete one full rotation around its axis.
The "period of a planet" refers to the time it takes for that planet to complete one full orbit around its star. This is typically measured in Earth years or days, depending on the planet's distance from the star and its orbital speed. For example, Earth's orbital period is one year, while Mercury's is about 88 days. The period is influenced by gravitational forces and the characteristics of the orbit, such as its shape and size.
One of the coolest people on planet earth..... period.
Rotation means the planet spinning about it axis. (Orbit the the path of the planet round the Sun). The planet Mercury has a rotational period of 58.646 Earth days. The planet Venus has a (retrograde) rotational period of 243.0185 Earth days. The planet Mars has a rotational period of 1.025957 Earth days. The planet Jupiter has a rotational period of 9.925 hours. Obviously Earth has a rotational period of 1 Earth day.
The period of a planet's revolution is the time that it takes to complete one revolution around its axis of rotation relative to the background stars (also known as rotation period).
It is called the planet's period.