No. A properly functioning engine and fuel pump do not 'care' how much fuel is available, only that there is fuel available.
about 95 %
115
0.03%
5,625,000 pounds of fuel. However, gravitational pull is also a main source of propulsion.
coal because it isnt being used as much as it was in the past.
0.03%
The fuel needed to travel from Earth to Jupiter will depend on various factors such as the spacecraft design, propulsion system, trajectory, and payload weight. Generally, a mission to Jupiter would require a significant amount of fuel due to its distance from Earth and the need to accelerate to escape Earth's gravity and reach Jupiter's orbit.
So that it can escape Earth's Gravity. The rockets work by burning so much fuel that they can overpower Earth's gravity.
Of all the water on earth, , only 2.59% is avalible as freshwater
Apollo 11 carried about 57,000 pounds of fuel to return to Earth. The fuel was sourced from the Lunar Module's descent stage, which used a hypergolic propellant combination of Aerozine 50 and nitrogen tetroxide.
To orbit the Earth 100 times, the satellite would require 5000 kg of fuel (50 kg x 100). Each orbit requires the same amount of fuel, so multiplying the amount for one orbit by the number of desired orbits gives the total fuel needed.