Fractional distillation of the liquefied mixture is one possible method.
Nitrogen and/or carbon monoxide
if you want to purify carbon monoxide, at first you'll need to create high pressure and temperature. then in that atmosphere let carbon monoxide react with oxygen. .... the carbon monoxide will turn into carbon Di oxide..then you can simply purify carbon Di oxide. - - - - - Pure carbon monoxide is an important industrial gas, and the easiest way to make absolutely pure CO is to heat solid carbon to over 800 degrees C and pass pure oxygen over it. At that temperature, CO2 does NOT form and you get pre-purified CO. If you have "producer" gas--CO and nitrogen--you could liquify the CO in an air liquifying machine.
Elemental Carbon. It will reduce Manganese Dioxide to Manganese, and will oxidize self to Carbon monoxide.
Since water and carbon dioxide are both compounds which contain oxygen, it is possible to obtain oxygen from either, but you get a different residue depending upon which compound is the source of the oxygen. Take the oxygen out of water and you are left with hydrogen gas; take the oxygen out of carbon dioxide and you are left with carbon, which is a black solid. It is easy to spot the difference between hydrogen and carbon.
it all started when crude oil was formed by dead organisms millions of years ago, it was buried under mud and silt. The pressurecompacted it which made a rich mixture a hydrocarbons known as crude oil, this is how they are made.
Nitrogen and/or carbon monoxide
if you want to purify carbon monoxide, at first you'll need to create high pressure and temperature. then in that atmosphere let carbon monoxide react with oxygen. .... the carbon monoxide will turn into carbon Di oxide..then you can simply purify carbon Di oxide. - - - - - Pure carbon monoxide is an important industrial gas, and the easiest way to make absolutely pure CO is to heat solid carbon to over 800 degrees C and pass pure oxygen over it. At that temperature, CO2 does NOT form and you get pre-purified CO. If you have "producer" gas--CO and nitrogen--you could liquify the CO in an air liquifying machine.
no, it cant... because Jupiter have an atmosphere of hydrogen, helium, methane, ammonia, carbon monoxide, ethane, acytelene, phosphine,and water vapor
Oxygen, carbon, hydrogen, calcium,
Elemental Carbon. It will reduce Manganese Dioxide to Manganese, and will oxidize self to Carbon monoxide.
Since water and carbon dioxide are both compounds which contain oxygen, it is possible to obtain oxygen from either, but you get a different residue depending upon which compound is the source of the oxygen. Take the oxygen out of water and you are left with hydrogen gas; take the oxygen out of carbon dioxide and you are left with carbon, which is a black solid. It is easy to spot the difference between hydrogen and carbon.
Because you touch yourself at night.
it all started when crude oil was formed by dead organisms millions of years ago, it was buried under mud and silt. The pressurecompacted it which made a rich mixture a hydrocarbons known as crude oil, this is how they are made.
Methane is the answer, By the destructive distillation of coal, we can obtain coal gas, coal tar and ammonia. Coke is left as a residue. Coal gas contains methane, carbon monoxide and hydrogen. Since all the three are combustible, coal gas is a good fuel with a high calorific value.
you obtain Cu from CuO only by reducing with hydrogen or carbon monooxide: CuO + H2 → Cu + H2O
they obtain carbon by humans and organisms, etc.
Animals obtain their energy and carbon from the food they ingest. Carbohydrates and protein are a good source of carbon and energy.