The rocket carries its own supply of oxygen with which to burn the fuel.
There is no air, and thus no oxygen, in outer space, so the rocket needs to bring its own oxygen to burn its fuel.
Since there is no air in space, the spacecraft must bring an 'oxidizer' with it into space. That oxidizer mixes with the fuel, providing the oxygen needed for it to burn, and it burns..
I think I know what you're getting at... Rockets burn loads of fuel really quickly so we use jet engines in the atmosphere... The thing is that jet engines need oxygen to mix with fuel to burn it. Rocket engines contain their own oxygen which means that they are the most practical way for us to get into space.
The Solid Rocket Boosters each burn 1,100,000 lbs of fuel. The main tank which contains essentially a liquid oxygen/hydrogen mix burns a little less than 1,200,000 lbs. A little is reserved for maneouvring in space.
Yes. If a rocket fires its rockets to manoeuvre, then it burns fuel. Fuel is defined as anything that burns; gases and solid propellent. In space, the fuel has to have oxygen added or an oxidizer to sustain the burn.
oxygen is added from a separate tank
There is no air, and thus no oxygen, in outer space, so the rocket needs to bring its own oxygen to burn its fuel.
Since there is no air in space, the spacecraft must bring an 'oxidizer' with it into space. That oxidizer mixes with the fuel, providing the oxygen needed for it to burn, and it burns..
A rocket motor (rocket engine) does not need air from the atmosphere. It carries the oxidant (source of oxygen) as well as the fuel.
In space there is no oxygen. Space is a vacuum. All things like a rocket going to space, require a fuel to burn, oxygen and a heater. Since there is no oxygen is space they need to provide it for them. Meaning the reaction can take place correctly.
simple rocket science...the fuel tank on a space shuttle carries it's own oxygen in a separate hull NEXT to the actual fuel (hydrogen) tank which allows the fuel to burn, as there is no oxygen in the vacuum of space, and fire, of course, needs plenty of oxygen...
Vehicles such as airplanes and cars rely on oxygen from the air to burn their fuel. Rockets take the oxygen with them.
I think I know what you're getting at... Rockets burn loads of fuel really quickly so we use jet engines in the atmosphere... The thing is that jet engines need oxygen to mix with fuel to burn it. Rocket engines contain their own oxygen which means that they are the most practical way for us to get into space.
Coal cannot burn without oxygen.
Burning requires a flammable material and oxygen as well as a heat source. Rocket fuel will burn in space because it contains its own oxygen. Applying a heat source will ignite rocket fuel. A fuel such as gasoline will not burn in space as there is no oxygen present.
Fire does indeed need oxygen to burn in the presence of atmospheric air on Earth. However, the fire in a rocket burning in space is different from the typical combustion that occurs on Earth. The flames we see when something burns on Earth are the result of combustion involving oxygen from the surrounding air. In space, there is no atmospheric air, and therefore no free oxygen available for combustion. So, if you were to light a match or a candle in the vacuum of space, it wouldn't produce a flame as we know it on Earth. However, rockets are equipped with their own oxidizers, which are substances that provide the necessary oxygen to support combustion. The most common rocket fuel used is a combination of liquid or solid fuel and an oxidizer, such as liquid oxygen (LOX), liquid hydrogen, or solid propellants. In the case of liquid oxygen, it is stored onboard the rocket in a separate tank from the fuel. When the rocket engines are ignited, the fuel and oxidizer are mixed and ignited together in a controlled manner. This chemical reaction releases a large amount of energy, creating hot gases that are expelled through the rocket's nozzles at high speeds, providing the necessary thrust for the rocket to move forward. Since rockets carry their own oxidizers and don't rely on atmospheric oxygen, they can operate in the vacuum of space, where there is no air or atmosphere. This allows them to travel beyond Earth's atmosphere and into space.
Thermite has its own oxygen source so it can burn without an outer source of oxygen, including underwater and in the vacuum of space. However, I do doubt that thermite can burn in space, since space is quite cold. It would just depend in how far away from the Sun you are when you light the thermite.