It took about 199,000 gallons to the moon and 189,001 gallons back
The amount of fuel needed to travel to the Moon and back to Earth depends on various factors, including the specific spacecraft design, propulsion system, trajectory, and payload mass. However, a rough estimate would be around 5,000 to 7,000 tons of fuel for a round trip to the Moon and back to Earth using current technology.
The actual amount of fuel needed to travel to the moon and back depends on the specific spacecraft and propulsion system used. However, it typically requires a significant amount of fuel due to the distance and speed required to make the journey. For example, the Apollo missions used approximately 300,000 gallons of fuel to reach the moon and return to Earth.
Gravity on the moon is much less than on earth (0.1654g) Therefore a football, when kicked will go much further before the week moon gravity pulls it back down to the surface.
Apollo 11 had about 25 seconds worth of fuel remaining when it landed on the moon.
Not very much.
It takes about 3 days to travel to the moon using current spacecraft technology.
1600000
Depends, how much fuel has you got? :>
The amount of fuel needed to travel to Mars and back depends on various factors such as the spacecraft design, propulsion system, payload weight, and trajectory. For a mission like NASA's Mars Rover, Curiosity, it required around 2000 pounds (900 kg) of fuel for the journey to Mars. The return trip would require a similar amount of fuel.
AnswerMany people believe that a spacecraft continuously burns fuel to travel through space. This idea is extremely incorrect. An object at rest or moving at constant velocity will continue to do so unless acted upon by a net external force. In other words, once the object leaves the Earth it will forever move forward. Which means on lunar missions spacecrafts only used rocket fuel to correct their path to their destination and to take get themselves moving when astronauts which to leave the surface of the moon for example and travel back to Earth.
It would take approximately 2.9 kilometers per second of delta-v to reach the moon. The amount of fuel needed depends on the specific rocket design, but it is typically a large amount due to the distance and gravitational forces involved in the journey.
Because, it is pretty much impossible to house the resources and the fuel to get to another planet and back again.