It takes 140 days more for the earth to go around the sun than Venus!
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The relationship that exists between a planet's distance from the Sun and its period of revolution is that the closer the planet is from the Sun, the less amount of time it takes for the planet to complete its period of revolution.
If you know any two of the following you can calculate the third: -Period of planet's revolution -Orbital Speed -Distance from sun
There is no real relationship, a planets spin depends on collisions it may have had in the past, rather than on its distance from the sun (which governs its orbital rotation time around the sun).
F is directly porportional to P
you would use kilometers. The distance between their orbital paths is on average 78,341,212 Km apart.
gravity is that keeping the orbital speed from falling or breaking loose. and the distance away = time
-- The earth itself is in orbit around the sun, at a distance that averages about 93 million miles. At this distance, it takes 365.23 days (rounded) to complete each orbital revolution. -- Objects can orbit the earth at any distance that keeps them outside the atmosphere. The time required to complete each orbital revolution depends on the size of the orbit. The International Space Station, at an orbital altitude of about 220 miles, takes 92 minutes for each revolution. TV satellites, at orbital altitudes of 22,236 miles, take exactly 1 day for each revolution ... that's why they don't appear to move at all in the sky. The Moon, at an orbital altitude of 238,000 miles, takes 27.3 days for each revolution.
The relationship that exists between a planet's distance from the Sun and its period of revolution is that the closer the planet is from the Sun, the less amount of time it takes for the planet to complete its period of revolution.
If you know any two of the following you can calculate the third: -Period of planet's revolution -Orbital Speed -Distance from sun
The distance between the sun and a planet determines its orbital period, its orbital speed, and the amount of insolation. Other factors such as composition and albedo are required to determine other variables.
Because it has an orbital speed of 47.87 km/s and a distance of 363,837,382.6 km to cover in one revolution.
There is no real relationship, a planets spin depends on collisions it may have had in the past, rather than on its distance from the sun (which governs its orbital rotation time around the sun).
Sub-orbital space flight reaches space while low orbital spaceflight attain sufficient velocity to go to space.
The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit.
AUs
Attraction gets smaller.
F is directly porportional to P