In the film 'Interstellar', the spacecraft called Endurance travels at a significant fraction of the speed of light, specifically around 90% of the speed of light, which is approximately 270,000 kilometers per second.
Interstellar would mean about "from Star to Star". We don't have anything that can travel that far.
Spaceships can travel at various speeds depending on their design and propulsion system. For example, manned spacecraft like the Apollo missions traveled at speeds around 25,000 mph during their return to Earth. Unmanned spacecraft like Voyager 1 have reached speeds of over 38,000 mph as they travel through the solar system. Interstellar spacecraft would need to travel at a minimum of 10% the speed of light (67 million mph) to reach nearby star systems within a reasonable time frame.
Man-made spacecraft can travel at speeds up to about 17,500 miles per hour (28,000 kilometers per hour) in outer space. This speed allows spacecraft to escape Earth's gravitational pull and travel to other planets, moons, and even beyond our solar system.
A person will travel at the same speed as the spacecraft from which they have exited since they are no longer being propelled by any additional force. Their speed would be determined by the velocity of the spacecraft at the moment of exit.
The answer is about 1 second.
It depends on where in space they are but they often travel extremely fast, upwards of 11 km per second
Very slow if it is 95.333 nanometres per second, fast if it is 95.333 kilometres per second.
Alpha Centauri is approximately 4.37 light-years away from Earth. To reach it in 130 years, you would need to travel at an average speed of about 0.033 light-years per year, or roughly 3.3% of the speed of light. This speed is significantly faster than any current spacecraft, highlighting the challenges of interstellar travel.
62 feet per second.
About 120m per second
186,000 miles per second
299,792,458 meters/second