My understanding is that household ammonia is 0.85% ammonia (NH3). This equates to 0.85 grams per 100 grams (mililiters) of water or 8.5 grams per liter of water. The molar mass of ammonia is about 17. So 8.5 grams divided by 17 grams per mole equals 0.5, which is the molarity of household ammonia.
One liter, because it's the same unit of measure. Isn't it obvious?
Household ammonia has a 10 % concentration of ammonia (NH3) in water.
.82 pounds of N in a pound of NH3
Household ammonia is a solution of ammonia in water. Mostly it is used to clean household utensils.
Many household cleaners contain ammonia.
The solute in household ammonia is typically ammonia gas dissolved in water.
Household ammonia has a pH of 11.5 to 12.5
The chemical formula of household ammonia is NH3.
Household ammonia is a solution of ammonia in water. Mostly it is used to clean household utensils.
Household ammonia has a pH of 11.5 to 12.5
Many household cleaners contain ammonia.
ammonia ammonia
No, ammonia is basic.
Household bleach has a pH around 12-13, making it basic, while household ammonia has a pH of around 11-12, also making it basic. However, bleach is more alkaline than ammonia, making it a stronger base.
The solute in household ammonia is typically ammonia gas dissolved in water.
Ammonium hydroxide (NH3OH) is the active ingredient for household ammonia.
ammonia ammonia
The pH of ammonia solution can range from 11-12, making it alkaline in nature.
Ammonia in its pure state is a single molecule (NH3) which, depending on pressure, can be either a liquid or a gas. Household ammonia (aqua ammonia) is a solution of ammonia in water which is usually described as NH4OH or as its componest ions NH4+ and OH- If you had pure ammonia in a container (as a liquid) it would rapidly change to ammonia gas. An ammonia solution (household ammonia) is much more stable.
Ammonia is a homogeneous mixture. This is because it is a solution of ammonia gas (NH3) dissolved in water, where the ammonia molecules are uniformly distributed throughout the water molecules.