There are several popular units of measurements to measure these large distances.
One is the light year, which is the distance light can travel in one year (it travels 300,000 m/s). A light year is equal to a little less than 10^16 meters.
Another unit of measurement is the parsec, or "parallax second" which is defined by the distance of an object that shifts one arcsecond in the sky per user movement of 1 A.U. (astronomical unit) It is equal to 3.26 light years or about 3x10^16.
A final unit of measurement that is widely used in the solar system, such as from Earth to our star, the Sun, is the astronomical unit which is the distance from the Earth to the sun. One A.U. is approximately 1.5 x 10^8 km.
Typically, the distance from the Earth to various star is expressed in light-years. One light-year is the distance light can travel in one year at 186,000 miles per second.
Lightyears (for example, the nearest star to our sun is 4.1 lightyears away).
Orion is a constellation, not a galaxy. The stars in it appear to form a pattern but they are not a unit and they are all completely different distances away. So there is no definitive distance that you can say Orion is away from us. You can only talk about the distance of individual stars that are in it.
You might mean distance. Stars are not measured in elevation. Stars form apart from each other, that's why the distance to a star compared to another will never be the same.
The light year is used to measure distances that are greater than our solar system. It is the next form of measurement above the Au, or astronomical unit, or the distance between the Earth and and the sun. It is normally used to measure distances between stars or galaxies. The light year is equivalent to 5,878,625,373,183.61 miles or 9,460,730,472,580.81 km. See the related link for more information.
Any constellation is a group of stars that appear to form some kind of pattern, but have no connection with each other. They all happen to be in roughly the same direction from us, but they're all at different distances. So there's no such thing as a constellation's distance from us.
Any constellation is a group of stars that appear to form some kind of pattern, but have no connection with each other. They all happen to be in roughly the same direction from us, but they're all at different distances. So there's no such thing as a constellation's distance from us.
Orion is a constellation, not a galaxy. The stars in it appear to form a pattern but they are not a unit and they are all completely different distances away. So there is no definitive distance that you can say Orion is away from us. You can only talk about the distance of individual stars that are in it.
it depends on how large the nebulae is. The largest of nebulae (in both distance and height) form the largest number of stars while the smallest of nebulae (in both distance and height) form the least number of stars. Therefore there is no fixed number for the number of stars that can be formed from a single nebulae (a variable amount of stars can be formed from one nebulae)
No. Constellations are arrangements of stars that appear to form pictures.
150G meters is the average distance of the earth form the sun.
there is only one form of feet, as least used for measurement.
A diameter is not a form of measurement. It is the distance across a circle. That question is impossible to answer.
149.6 kilometers
The earth is roughly 150E9 meters form the sun.
You might mean distance. Stars are not measured in elevation. Stars form apart from each other, that's why the distance to a star compared to another will never be the same.
The light year is used to measure distances that are greater than our solar system. It is the next form of measurement above the Au, or astronomical unit, or the distance between the Earth and and the sun. It is normally used to measure distances between stars or galaxies. The light year is equivalent to 5,878,625,373,183.61 miles or 9,460,730,472,580.81 km. See the related link for more information.
a lot of miles
I dont know really