It occupies 22.4 L
Avogadro's Law applies to real life in many different ways. It explains why bread and baked goods rise. It explains gunpowder and projectiles. It explains balloons inflating. It explains how we breathe.
PV/NrT, pressure(volume)/amount(constant)(temperature). When your temperature, volume, and pressure are all the same, you get the same number of particles. This is avogadros hypothesis. Let's say that you have to balloons. They have the same temperature, volume, and pressure. If you weigh the gases in the balloon, you will find that there is the same amount of particles. In fact Dalton did this was able to find out the amount of particles (atoms) by the mass of objects.
"Human sacrifice, dogs and cats living together, mass hysteria." Actually, Avogadro's Law isn't obeyed exactly by real gases, so what would happen is what does happen. If it wasn't obeyed even approximately, then the ideal gas law would no longer be a good predictor of real gas behavior, and chemistry class would get a lot more complicated.
The law of definite composition states that chemical compounds always contain the same elements in the same proportions by mass. For example, water always consists of two hydrogen atoms and one oxygen atom in a 2:1 ratio by mass. Additionally, carbon dioxide always contains one carbon atom and two oxygen atoms in a 1:2 ratio by mass.
V=kn
the relationship between volume and moles-APEX
Equal amounts of all gases have the same volume at the same conditions.
Its avogadros number
A mole.
No.
6.02*10^23atoms (avogadros constant)
It is 6.02 (times) 10 to the power of 23
The unit is "per mole", or mol^-1.
I asked this question wrong. It should be Avogadros Number. Sorry!
atoms in 12 g of c-12
Criminal Law.