Oxygen - No Nitrogen - No Carbon Monoxide - Yes Argon - No
Carbon monoxide. This gas is taken up preferentially by the avioli of the lungs and does not contribute it's oxygen to the process of respiration. So, asphyxiation follows id concentrated CO is present in the immediate atmosphere.
Ammonia is not classified as an asphyxiant gas. However, it can displace oxygen in the air, leading to a potential asphyxiation risk in poorly ventilated spaces. The primary danger of exposure to high levels of ammonia is its toxic and irritant effects on the respiratory system.
Methane gas itself is not considered a simple asphyxiant because it does not displace oxygen in the air. However, in high concentrations, methane can still present an asphyxiation risk by reducing the amount of available oxygen in a confined space, leading to suffocation.
helium. It is a colorless, odorless, and non-reactive gas that is the second lightest element in the periodic table. It is commonly used in balloons, airships, and as a coolant in various applications.
A kitchen gas stove is one example. A laboratory Bunsen burner is another example.
Carbon monoxide. This gas is taken up preferentially by the avioli of the lungs and does not contribute it's oxygen to the process of respiration. So, asphyxiation follows id concentrated CO is present in the immediate atmosphere.
Carbon dioxide is not toxic but it is not a breathing gas, it is asphyxiant.
Hydrogen gas itself is not a poison gas. It is a colorless, odorless, tasteless gas that is non-toxic in small quantities. However, in high concentrations, hydrogen gas can displace oxygen in the air, leading to a potential risk of asphyxiation.
Ammonia is not classified as an asphyxiant gas. However, it can displace oxygen in the air, leading to a potential asphyxiation risk in poorly ventilated spaces. The primary danger of exposure to high levels of ammonia is its toxic and irritant effects on the respiratory system.
Methane gas itself is not considered a simple asphyxiant because it does not displace oxygen in the air. However, in high concentrations, methane can still present an asphyxiation risk by reducing the amount of available oxygen in a confined space, leading to suffocation.
Stythe gas is an asphyxiant that reduces the available oxygen content of air to where animals or humans can not survive in it. It is also called Black damp.
A gas can be a reactant in a chemical reaction. For example, iron and the gas oxygen react to form rust, which is iron oxide.
This is a sign of a chemical reaction.
A gas is evolved as a product of a chemical reaction.
is When a gas turns to a liquid or solid
Nitrogen dioxide.
Fizzing is the result of a chemical change - a chemical reaction with gas releasing.