26 years.
Light takes about 8 minutes to travel from Earth to the sun. The sun is about 93 million miles away, so it would take about 177 years to get to the sun in a car traveling at 60 miles per hour, and about 21.5 years to get to the sun in an airplane traveling at 500 miles per hour. (These are just comparisons; cars and airplanes don't travel in outer space.)
The travel time from Earth to Uranus can vary greatly depending on the positions of the two planets in their respective orbits. On average, it would take a spacecraft traveling at typical speeds approximately 9-10 years to reach Uranus.
Well, first of all, space ships, probes, vehicles etc. never travel in straight lines. But we'll ignore that inconvenient fact, in order to get at the main point of the question, which is to convey a feeling for the distance to the Sun. Traveling in a straight line at the speed of a passenger jet ... 400 miles per hour ... it would take . . . -- 24.8 days to reach the Moon, -- 26.5 years to reach the Sun, -- 111.8 years to reach Jupiter, (when Jupiter is as close to Earth as it can ever get), -- 7.21 million years to reach the nearest star outside our solar system.
From Earth, it takes about 8minutes 20seconds if you travel in a straight line.
That depends on the speed that you're traversing, The closest Venus comes to Earth in it's orbit around the Sun is about 25 million miles. If you were traveling to Venus in a rocket ship at a speed of 25,000 miles per hour, it would take you 1,000 hours to get there, or 41.66 days.
Speed of Sound = 343.14 m/s 4 miles = 6437 metres 6437/343.14 = 18.76 seconds
When the Earth is traveling, everything on the Earth is traveling with it, in the same frame of reference. For example, when you are in a car or an airplane and you flip a coin in the air, the coin doesn't shoot backwards. Or, notice that when you jump upwards that the Earth didn't move from under you when you jumped.
24,901 miles at 500 mph would require 2.08 days.
Light takes about 8 minutes to travel from Earth to the sun. The sun is about 93 million miles away, so it would take about 177 years to get to the sun in a car traveling at 60 miles per hour, and about 21.5 years to get to the sun in an airplane traveling at 500 miles per hour. (These are just comparisons; cars and airplanes don't travel in outer space.)
Humans are traveling at the same speed as the earth.
Traveling in a space shuttle involves experiencing a force of gravity that is significantly higher during launch and re-entry compared to an airplane. Space shuttles travel at much higher speeds and altitudes, reaching orbit around Earth or other celestial bodies. Additionally, space shuttles require extensive training for astronauts due to the unique challenges of space travel.
The travel time from Earth to Uranus can vary greatly depending on the positions of the two planets in their respective orbits. On average, it would take a spacecraft traveling at typical speeds approximately 9-10 years to reach Uranus.
"Up" at the beginning of the trip, and "down"at the end of it.
NO mars has longer years so it has longer orbit and traveling
Well, first of all, space ships, probes, vehicles etc. never travel in straight lines. But we'll ignore that inconvenient fact, in order to get at the main point of the question, which is to convey a feeling for the distance to the Sun. Traveling in a straight line at the speed of a passenger jet ... 400 miles per hour ... it would take . . . -- 24.8 days to reach the Moon, -- 26.5 years to reach the Sun, -- 111.8 years to reach Jupiter, (when Jupiter is as close to Earth as it can ever get), -- 7.21 million years to reach the nearest star outside our solar system.
From Earth, it takes about 8minutes 20seconds if you travel in a straight line.
That depends on the speed that you're traversing, The closest Venus comes to Earth in it's orbit around the Sun is about 25 million miles. If you were traveling to Venus in a rocket ship at a speed of 25,000 miles per hour, it would take you 1,000 hours to get there, or 41.66 days.