Mars has an orbital period of very approximately twice that of the earth
Actually, the answer is Mars. Mars' revolution is 1.88 years which is almost twice as the revolution of Earth.
Saturn has a period of revolution that is approximately twice as long as Earth's. While Earth takes about 365 days to complete one revolution around the Sun, Saturn takes roughly 29.5 Earth years to complete its orbit.
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
A revolution on Mars, which is the time it takes for the planet to orbit the Sun, lasts about 687 Earth days. This is approximately 1.88 Earth years. As a result, Martian years are almost twice as long as Earth years.
No planet is that big. Jupiter, the largest planet in the solar system, is about a tenth the diameter of the sun.
Mars has roughly twice the Earth's period of revolution.
Actually, the answer is Mars. Mars' revolution is 1.88 years which is almost twice as the revolution of Earth.
Saturn has a period of revolution that is approximately twice as long as Earth's. While Earth takes about 365 days to complete one revolution around the Sun, Saturn takes roughly 29.5 Earth years to complete its orbit.
Mars.
In our solar system, the planets Uranus and Neptune have about twice the gravity of Earth.
The moon closer to the planet would complete a revolution first, as it would need to cover a shorter distance in the same amount of time compared to the moon that is twice as far away. This is due to the fact that the closer moon has a smaller orbit and shorter path around the planet.
Mars with an orbital period of 1.88 years.
Kepler's third law states that the square of the orbital period of a planet is proportional to the cube of its semi-major axis. If a hypothetical planet is twice as far from the sun as Earth, its semi-major axis would be 2 times larger. Therefore, the period of this hypothetical planet would be √(2^3) = 2.83 times longer than Earth's period.
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
No planet.
bause
If the moon were to rotate twice during each revolution, the tides on the Earth would appear different. Also, the moon itself would show its far side rather than having the same side facing the planet all the time.