There is no single planet named Kepler. Planets discovered by the Kepler space observatory are given designations such as Kepler-22b. Planets discovered by Kepler range from about 100 to about 7,000 light years away. Currently we do not have the ability for interstellar travel so we do not know what the travel times might be.
There is no planet Kepler. Designations such as Kepler-69c are given to planets discovered by the Kepler spacecraft. This spacecraft has discovered planets ranging from 100 to 7,000 light years away.
If you mean the star Kepler-11, it is at a distance of about 2000 light-years.
it would take 15 years, if going at 20,000 mph.
The Kepler Satellite has discovered well over a thousand planetary candidates, via transit. Kepler-10 b is 173 parsecs (564 light years) while Kepler-35(AB) b is 1645 parsecs (5365 light years). Kepler 42 b, c, & d are 38.7 parsecs (126 light years). This satellite is not a planet, but rather an artifact orbiting our sun at about the same distance as the Earth, built to detect exoplanets. Exoplanets are planets that orbit stars beyond ours.
No. It is a planet in another solar system about 500 light-years from Earth in the constellation Cygnus.
Traveling to Kepler-186f would take approximately 500 years using current technology.
There is no planet Kepler. Designations such as Kepler-69c are given to planets discovered by the Kepler spacecraft. This spacecraft has discovered planets ranging from 100 to 7,000 light years away.
Probably not. Very little is known about Kepler-22b. We know that it orbits in its star's habitable zone, but we do not know its composition, mass, or temperature. Chances are it would not be suitable for humans. Even then, Kepler 22b is about 600 light years away. Much to far for us to travel with current technology, if interstellar travel will ever be possible.
It will take 200 years to reach the planet kepler from Earth because it is 200 lightyears away. (On the other hand, if you travel at a more leisurely 10 million miles per hour, you'll have to set aside a little over 13,000 years for that trip.)
If you mean the star Kepler-11, it is at a distance of about 2000 light-years.
The speed of Planet X would depend on the size of its orbit around the sun and the length of that orbit (2400 years in this case). Assuming a circular orbit for simplicity, and using Kepler's third law, we can estimate that Planet X would need to travel at an average speed of roughly 1.58 km/s.
Mecury :)
it would take 15 years, if going at 20,000 mph.
Kepler spent 20 years plotting the positions of the planet no he did not.
That would be Saturn.
The Kepler Satellite has discovered well over a thousand planetary candidates, via transit. Kepler-10 b is 173 parsecs (564 light years) while Kepler-35(AB) b is 1645 parsecs (5365 light years). Kepler 42 b, c, & d are 38.7 parsecs (126 light years). This satellite is not a planet, but rather an artifact orbiting our sun at about the same distance as the Earth, built to detect exoplanets. Exoplanets are planets that orbit stars beyond ours.
The period of a planet is the time it takes for the planet to complete one orbit around its parent star. This period is typically measured in Earth days or years, depending on the length of the planet's orbit.