I think carbon dioxide but definitely a bowel gas which can be deadly sometimes
Methane gas is what is release in flatulence, even that of humans!
Yes, Methane acts as the only source of carbon and energy for the bacteria Methanotrophs (methanophiles). Methane is a potential greenhouse gas far more potent than carbon dioxide. Methanotrophs play a major role in the reduction of the release of methane into the atmosphere from environments such as rice paddies, landfills, bogs and swamps where methane production is relatively high.
CO2 (Carbon Dioxide) for the most part, but the components of the original air that was inhaled are still present, although the O2 (oxygen) component will be reduced.
0%- Humans exhale CO2. Human expell methane.
Burning release heat, the molecular structure of methane is destroyed and the bonding energy is released.
Methane I believe.
Methane gas is what is release in flatulence, even that of humans!
Not for humans beings.
All animals release carbon dioxide by breathing.All animals, humans included, release food waste.Cattle and other ruminant animals release methane from both ends, but mostly from the front.
Yes, Methane acts as the only source of carbon and energy for the bacteria Methanotrophs (methanophiles). Methane is a potential greenhouse gas far more potent than carbon dioxide. Methanotrophs play a major role in the reduction of the release of methane into the atmosphere from environments such as rice paddies, landfills, bogs and swamps where methane production is relatively high.
Methane and nitrogen
hello sonny saunders
Because marshes tend to release methane.
Hel was the Norse goddess of the land of the dead. She was cruel and indifferent to the dead. She refused to release Baldur, the god of sunlight from the land of the dead even though animals, and humans, begged for his release.
Exothermic is a release of heat, so when methane burns, it must release heat to be exothermic.
No, it's Methane, the same as humans
CO2 (Carbon Dioxide) for the most part, but the components of the original air that was inhaled are still present, although the O2 (oxygen) component will be reduced.