You folks should really review your physics basics before replying to a person about rocket propulsion. “For every action there is an equal and opposite reaction of the exact same force." The surface of the Earth has nothing to do with lifting a rocket. It is the result of a force blasting out that pushes the rocket in an opposite direction. This works flawlessly in outer space because there is no gravity to hold the ship down. A push as small as a fart will change your course accordingly. What should be considered is the mass of the spacecraft and the amount of force required to accelerate it. I remember reading that if an acceleration of 1g is maintained for one Earth year, the vehicle will approach the speed of light in that time. The amount of thrust required to produce 1g depends on the mass of the ship. Remember, this is a constant acceleration
(as in x miles per hour, per hour) This would enable people in the spacecraft to stand planted to the floor where the 1g is being applied and feel as if there were gravity. The problem is that we do not have the technology to carry a fuel light enough that is capable of producing this continuous thrust. The mass of the fuel defeats the power ratio. In the future when we harness nuclear fusion, it is reasoned it will be possible. This is the power of the stars. Finally, the more mass the harder it is to approach the speed of light. I hope this answers your question. There is lots of math on this you can look up on-line if you are keen on it.
Best wishes,
JED