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 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).
Yes, a redshift of 2.18 does equal to a light travel distance of nearly 11 billion years (i.e. 10.7 billion years).
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 0.8 does equal to a light travel distance of nearly 7 billion years (i.e. 6.9 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 1 does equal to a light travel distance of nearly 8 billion years (i.e. 7.7 billion years).
Time = Distance / Speed = 3.57 billion / 25700 hours = 138910.5 hours = approx 5788 days = nearly 16 years.
Yes, there are some quasars that are nearly 13 billion light years from the earth.