The distance that light travels in one year is called "one light-year". It is, very roughly, about 6.25 trillion miles.
You can do the calculations yourself. Light travels at about 186,000 miles per second, or 300,000 km per second.
There are 60 seconds in a minute, 60 minutes in an hour, 24 hours in a day and 365.26 days in a year. Just multiply all of those numbers together.
Yes, a redshift of 5 does equal to a light travel distance of 12.5 billion years.
A light year is used to describe the distance you travel if you travel at the speed of light for one Year. which is equal to equal to just under 10 trillion kilometers (1016 metres, 10 petametres or about 6 trillion miles
Yes, a redshift of 0.6 does equal to a light travel distance of nearly 6 billion years (i.e. 5.7 billion years).
Yes, a redshift of 3.25 does equal to a light travel distance of nearly 12 billion years (i.e. 11.7 billion years).
Yes, a redshift of 7 does equal to a light travel distance of nearly 13 billion years (i.e. 12.9 billion years).
Yes, a redshift of 8 does equal to a light travel distance of 13 billion years.
Yes, a redshift of 5 does equal to a light travel distance of 12.5 billion years.
A light year is a measure of distance not time. A light year is the distance light travels in one year. So for light to travel 6,300 light years, would take 6,300 years
That is called a light-year, and it is equal to a distance of about 9.5 trillion kilometers.
A light year is a measure of distance, not time. A light year is the distance that light will travel in one year. One light second is 186,000 miles. A light year is a measure of distance, not time. A light year is the distance that light will travel in one year. One light second is 186,000 miles.
A light year is used to describe the distance you travel if you travel at the speed of light for one Year. which is equal to equal to just under 10 trillion kilometers (1016 metres, 10 petametres or about 6 trillion miles
A light year is a measure of distance, not time. It is the distance light travels in a year.
Yes, a redshift of 0.6 does equal to a light travel distance of nearly 6 billion years (i.e. 5.7 billion years).
Yes, a redshift of 1.6 is equal to a light travel distance of nearly 10 billion years (i.e 9.5 billion years).
Yes, a redshift of 6 is equal to a light travel distance of nearly 13 billion years (i.e. 12.7 billion years).
Yes, a redshift of 6.5 does equal to a light travel distance of nearly 13 billion years (i.e. 12.8 billion years).
Yes, a redshift of 6 does equal to a light travel distance of nearly 13 billion years (i.e. 12.7 billion years).