368,000 in Scientific Notation = 3.68 x 105
The average distance is 58 million miles. This is expressed in scientific notation as: 5.8e+7 miles.
The average distance between Earth and Mars is about 225 million kilometers. In scientific notation, this distance is approximately 2.25 x 10^8 kilometers.
The moon's average distance from earth during the course of one complete orbital revolution (a month) is 384,401,000meters (rounded).
The relative distances of the planets from the Sun can be expressed as average orbital distance in millions of miles (millions of kilometers). But they can also be expressed as multiples of a known distance, the average radius of Earth's orbit. This is called an AU (Astronomical Unit), roughly equal to 93 million miles (150 million km). Here are the average distances from the Sun as expressed in AU : * Mercury - 0.39 AU * Venus - 0.72 AU * Earth - 1 AU * Mars - 1.52 AU * Jupiter - 5.2 AU * Saturn - 9.6 AU * Uranus - 19.2 AU * Neptune - 30.1 AU * dwarf planet Pluto - 29.6 to 49.3 AU (elliptical within Neptune's orbit)
The average distance of Chiron to the sun is 1224,557km away
The average distance is 3.844*10^5 kilometres.
The average distance is 58 million miles. This is expressed in scientific notation as: 5.8e+7 miles.
The average thickness of a human hair is around 70 micrometers, which can be expressed in scientific notation as 7 x 10^-5 meters.
The average distance between Earth and Mars is about 225 million kilometers. In scientific notation, this distance is approximately 2.25 x 10^8 kilometers.
Neptune is about 4.503 x 109 km from the sun. (Semi-major axis)
About 19.13 A.U. (Astronomical Units). That's just the average distance of course.
It is in scientific notation: 9.3*10^7
Average distance about 2869 million kilometres. That's about 19.13 "Astronomical Units".
The answer depends on what characteristic of the planets you are interested in: their mass, radius, volume, length of orbit, average distance from the sun, etc.
When? Mars and Earth are constantly moving, so the distance between them is constantly changing. If you're really interested, it would be trivial to look up their relative distances from the sun, and figure out how far apart they can ever be (if they're both on opposite sides of the sun) or how close they can ever get (if they're both on the same side of the sun). I'm not going to do that for you, though, because I would hate to spoil your joy of discovery.
Average distance from the earth to the sun = 1.496*1011 metres. Speed of light in vacuum = 3.0*108 metres per xecond.
The Moon is about 384,399 kilometers from the Earth. This is about 0.245 million miles. In scientific notation, this is 2.45 x 105 miles, or 2.45 x 10-1 million miles.