around what? if its earth then it would rotate on its axis and and if ur talkin bout the revolution then if it is before earth (Venus, Mercury) then it wouldn't orbit around earth they would only orbit the sun and Venus would orbit mercury. and all of the planets after earth (Mars, Jupiter, Saturn, Uranus, Neptune, others) they would orbit the sun and all the planets before them. but all planets rotate on their axis but it may take shorter or longer time to rotate once than how long it takes for earth to rotate on its axis once.
There is no such planet. They all move counterclockwise (when viewed from above the Earth's north pole, which is the usual definition).
The circumference of a planet is the distance round their widest part. On earth, it is measured round the equator.
circle,flat,round
All locations on the surface of the planet is considered on the side of the earth. The earth is round and the outer surface is a side.
A small planet going round a big planet is called a moon. Like our moon, it is smaller than Earth - so all planets orbiting round a bigger planet is called a moon.
Each planet moves in its own elliptical orbit round the Sun, then and now.
No. Jupiter's smaller moons are irregular in shape.
Round is an infinitely more efficient design to accommodate the rotations, orbits and movements of the planets and galaxies. Can't imagine a "flat-disk" planet-design doing (or trying to do) what the round, circular design does.
All the way round and coming back to the same place is 25,000 miles.
All countries on Earth are from Earth.
The orbit of each planet it the path it takes as it rotates round the Sun under the influence of the force of gravity. Every planet has a separate orbit and the orbits all follow Kepler's three laws of planetary motion.
They all move in the same way - going continuously round their elliptical orbits, following Kepler's laws of planetary motion under the Sun's gravitational force.