The chemical equation is:
4 NH3 + 3 O2 = 2 N2 + 6 H2O
To determine the mass of ammonia consumed, we need the balanced equation for the reaction. Without that information, we cannot accurately calculate the amount of ammonia consumed by the reaction of g of oxygen gas.
The mass of water would be equal to the mass of oxygen plus the mass of hydrogen used in the reaction. The law of the conversation of mass states that in a reaction no mass is either gained or lost. In this case the total amount of mass of the reactants (Oxygen and Hydrogen), according to the law of the conversation of mass, must be equal to the product (water), because no mass can be lost or gained during the reaction.
A catalyst by definition is not consumed in a reaction. Therefore, the mass remaining after a reaction will be equal to the mass before the reaction. Note that in certain reactions, such as free radical halogenation, the catalyst may be lost by certain side reactions, however.
When lithium reacts with oxygen, the mass of the lithium is unchanged. However, the mass of lithium oxide (Li2O) created is about 2.1 times as great as the starting mass of lithium metal (110% increase), due to the addition of oxygen. If the lithium reacts with nitrogen, the mass of lithium is similarly unchanged. The reaction produces lithium nitride (Li3N), with a mass about 1.7 times as great as the starting mass of lithium metal (67% increase), due to the addition of nitrogen.
Mass of ammonia is 17. Mass of Hydrogen in it is 3. So the percentage of hydrogen by mass is 17.64%
Aluminum oxide is formed by combining the aluminum mass consumed by burning with oxygen from the air to form aluminum oxide, with formula Al2O3.
Mass is conserved in a chemical reaction, but the coefficient attached to the reactants may be different than the products.
The mass of water would be equal to the mass of oxygen plus the mass of hydrogen used in the reaction. The law of the conversation of mass states that in a reaction no mass is either gained or lost. In this case the total amount of mass of the reactants (Oxygen and Hydrogen), according to the law of the conversation of mass, must be equal to the product (water), because no mass can be lost or gained during the reaction.
Ammonia contains about 82.35 % nitrogen by mass.
The molecular mass of ammonia (NH3) is 18.03 grams/mole
A catalyst by definition is not consumed in a reaction. Therefore, the mass remaining after a reaction will be equal to the mass before the reaction. Note that in certain reactions, such as free radical halogenation, the catalyst may be lost by certain side reactions, however.
It will add mass to the nail. When the chemical reaction of rusting takes place, some oxygen is bounded to the nail. The oxygen is what increases the mass.
The mass of ammonia is 339,7 g.
When lithium reacts with oxygen, the mass of the lithium is unchanged. However, the mass of lithium oxide (Li2O) created is about 2.1 times as great as the starting mass of lithium metal (110% increase), due to the addition of oxygen. If the lithium reacts with nitrogen, the mass of lithium is similarly unchanged. The reaction produces lithium nitride (Li3N), with a mass about 1.7 times as great as the starting mass of lithium metal (67% increase), due to the addition of nitrogen.
divide the mass by molar mass. Molar mass of NH3 is 17. answer is 0.044mol
Mass of ammonia is 17. Mass of Hydrogen in it is 3. So the percentage of hydrogen by mass is 17.64%
Molar mass of ammonia = (14.01 + 3.03) (Molar mass of nitrogen + 3 times molar mass of hydrogen, as chemical formula of ammonia is NH3). Molar mass= 17.04 Molar mass x moles = mass 17.04 x 3 = 51.12 Mass of 3 moles of ammonia is 51.12g.
340 grams