200 thousand gallons of fuel
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.
It takes around 7 months to travel from Earth to Mars, depending on the orbits of the planets at the time of the journey. This travel time can vary due to the changing distances between Earth and Mars as they orbit the Sun.
The gases found on Jupiter could be useful on earth, particularly the hydrogen, which can be burned as a clean fuel. It would be very difficult and costly to get these gases though, and to get them back to earth. You would end up using so much energy to get the gas that it would not be worth it in the long run.
It helps scientists know how much of what is needed to make for example the fuel or how much of gases they need to give the astronauts oxygen.
This depends on how you want to get there. The quickest, cheapest way probably involves the Hohmann Ellipse Transfer, where you begin the journey at earth's aphelion and end at Jupiter's perihelion. A cheaper but longer route might entail use of the Interplanetary Transfer Network. Gravity assists of the inner planets can help boost a spacecraft to a higher orbit.If you had unlimited fuel, you could simply boost straight to Jupiter, without ever trying to slow down. Just keep boosting, boosting, boosting, until you're swallowed by the Jovian atmosphere.The Galileo spacecraft, using gravity assists, required six years to get from Earth to Jupiter.
The journey time depends on the route taken. Space colonists will not travel in a straight line from the earth to the moon: most space trips orbit the earth and use the earth's gravity to make use of the sling-shot action for acceleration. This saves on fuel and so the associated weight to be carried into space.
Earth has gravity so less fuel is needed to move a rocket in space(assume that you mean escape from earth's gravitational field by"from earth")
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.
how much fuel is needed to travel 850 nautical miles going 25 knots in a 46 foot searay cruiser
Fuel, Oxygen and a heat source. Fuel, Oxygen and heat are everywhere why is the whole earth not on fire? because it is not Heat but a source of ignition that is needed.
the fuel needed is huge but you need to take in the power and the amount of thrust
It takes around 7 months to travel from Earth to Mars, depending on the orbits of the planets at the time of the journey. This travel time can vary due to the changing distances between Earth and Mars as they orbit the Sun.
The gases found on Jupiter could be useful on earth, particularly the hydrogen, which can be burned as a clean fuel. It would be very difficult and costly to get these gases though, and to get them back to earth. You would end up using so much energy to get the gas that it would not be worth it in the long run.
A rocket traveling from the Earth to the Moon requires more fuel due to Earth's stronger gravitational pull. The rocket needs to overcome Earth's gravity to escape its orbit, which requires a significant amount of energy compared to landing and taking off from the Moon, where the gravitational pull is weaker.
More information needed. What is the fuel milage of the vehicle in question? Rephrase and resubmit. ■
It takes 10,394 gallons of fuel.
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.
No humans have visited Jupiter. All of our understanding of Jupiter comes from data collected by spacecraft, such as the Voyager and Galileo missions.