well first you need to know how much pressure is being exerted on the bag and the temperature that the oxygen is at.
Divide 225ml by 20.9, then multiply by 100.
if this is math and your asking what gas has a percent by volume 78.09 it is nitrogen
The volume of hydrogen gas compares to the volume of oxygen gas based on their stoichiometric ratio in chemical reactions, particularly in the formation of water. In the reaction 2H₂ + O₂ → 2H₂O, two volumes of hydrogen gas react with one volume of oxygen gas. This means that for every two volumes of hydrogen, there is one volume of oxygen. Therefore, the volume of hydrogen gas is twice that of oxygen gas in this specific reaction.
Oxygen packing density refers to the amount of molecular oxygen that can be contained in a given volume or space. It is commonly used in the context of oxygen storage systems, such as oxygen tanks or containers, to determine how much oxygen can be stored in a specific volume. The higher the oxygen packing density, the more oxygen that can be stored in a smaller space.
The volume is 64,8 L.
It will be a quart.
oxygen is used ... volume decreases.
To estimate the volume of the pot.
Divide 225ml by 20.9, then multiply by 100.
if this is math and your asking what gas has a percent by volume 78.09 it is nitrogen
The volume of hydrogen gas compares to the volume of oxygen gas based on their stoichiometric ratio in chemical reactions, particularly in the formation of water. In the reaction 2H₂ + O₂ → 2H₂O, two volumes of hydrogen gas react with one volume of oxygen gas. This means that for every two volumes of hydrogen, there is one volume of oxygen. Therefore, the volume of hydrogen gas is twice that of oxygen gas in this specific reaction.
Oxygen makes up 21 percent of the air by volume.
Oxygen packing density refers to the amount of molecular oxygen that can be contained in a given volume or space. It is commonly used in the context of oxygen storage systems, such as oxygen tanks or containers, to determine how much oxygen can be stored in a specific volume. The higher the oxygen packing density, the more oxygen that can be stored in a smaller space.
it increase as a result of pressure generated from the heat
About 20% of the volume of the air in the room is oxygen.
20 cups
The gas with a volume of 20.95 is likely oxygen (O2) as it makes up about 20.95% of the Earth's atmosphere.