The energy required to put an object into orbit depends on its mass and the altitude of the desired orbit. Generally, it takes about 9.81 MJ/kg (megajoules per kilogram) for low Earth orbit, factoring in both the gravitational potential energy and the kinetic energy needed to achieve orbital velocity. For example, launching a 1,000 kg satellite into low Earth orbit would require approximately 9.81 GJ (gigajoules) of energy, not including additional energy needed for atmospheric drag and other losses during launch.
How much fuel will be needed in a rocket will depend on the size of the rocket and where it is going. A rocket that will be traveling into space burns a lot of fuel and will need enough to keep it in orbit for teh desired time.
None. Stars do not orbit the moon. They are murch farther away and much larger than the moon is.
The amount of fuel required to get a rocket into orbit depends on several factors, including the rocket's design, payload weight, and the specific orbit being targeted. Typically, a large rocket like the Falcon 9 uses around 500,000 liters of fuel (kerosene and liquid oxygen) to launch payloads to low Earth orbit. The fuel-to-payload ratio can be quite high, often exceeding 90%, due to the need to overcome Earth's gravity and atmospheric drag. Overall, achieving orbit is a highly energy-intensive process that requires careful engineering and precise calculations.
The ISS was not launched as a complete satellite because of its large size and complexity. It was assembled piece by piece in orbit by multiple space shuttle missions and Russian spacecraft. This approach allowed for easier transportation and assembly of the various modules that make up the ISS.
It takes a year or the earth to orbit the sun.
No one can answer this question until we know more details about how the trip is to be conducted. For example, when NASA launched men to the Moon, they used something called a Hohmann transfer orbit. But recently, the Indian government sent a probe to the Moon by a means that used much less energy than needed for a Hohmann transfer orbit, but which took much more time. So there is no one answer to this question.
Potential energy.
None
Not much. Of course, the exact amount of energy varies, depending on the sound volume.
How much fuel will be needed in a rocket will depend on the size of the rocket and where it is going. A rocket that will be traveling into space burns a lot of fuel and will need enough to keep it in orbit for teh desired time.
Not very much, I would say. There is no work being done in this situation so there's no change in kinetic energy. So the satellite's speed remains constant. But we already knew the speed was constant. Perhaps I'm missing something.
The satellites are usually placed so in an orbit high enough so that they don't lose much movement energy due to atmospheric friction.
The needed energy at 100 oC is 48751 MJ.
Adenosine triphosphate, or ATP.
2 ATP are needed.
2288777744x10 to the power of Bush
how much Energy is kJ is needed for one hour of jogging