The correct answers to fill in the blanks are:
- The coefficient
- Front
(75) The _____ Response areais the number in ______ of the element or compound.
Pick the correct two answers to fill in the blanks.
A. front
B. coeffciant
C. equation
D. right
5 answers
If the total mass of the product, mercuric oxide, HgO, is 433.2 grams, what is the total mass of the Mercury and Oxygen on the reactants side of the equation?
What are the grams?
What are the grams?
To determine the total mass of mercury (Hg) and oxygen (O) on the reactants side of the equation, we need to know the balanced chemical equation for the reaction involving mercuric oxide (HgO).
Without the specific reaction, we cannot accurately determine the mass of the mercury and oxygen on the reactants side. If you provide the balanced chemical equation, I can assist you in calculating the mass.
Without the specific reaction, we cannot accurately determine the mass of the mercury and oxygen on the reactants side. If you provide the balanced chemical equation, I can assist you in calculating the mass.
2Hg + O2---> 2HgO
If the total mass of the product, mercuric oxide, HgO, is 433.2 grams, what is the total mass of the Mercury and Oxygen on the reactants side of the equation?
What are the grams?
If the total mass of the product, mercuric oxide, HgO, is 433.2 grams, what is the total mass of the Mercury and Oxygen on the reactants side of the equation?
What are the grams?
In the balanced chemical equation:
2Hg + O2 ---> 2HgO
we can see that there are 2 mercury atoms (Hg) and 1 oxygen molecule (O2) on the reactants side. To calculate the total mass of mercury and oxygen on the reactants side, we need to know the molar mass of each element.
The molar mass of mercury (Hg) is approximately 200.59 grams/mol, and the molar mass of oxygen (O) is approximately 16.00 grams/mol.
Since we have 2 mercury atoms, the total mass of mercury on the reactants side is:
2 mol Hg * 200.59 g/mol Hg = 401.18 grams of mercury
For oxygen, we have 1 oxygen molecule (O2), so the total mass of oxygen on the reactants side is:
1 mol O2 * 16.00 g/mol O2 = 16.00 grams of oxygen
Therefore, the total mass of mercury (Hg) and oxygen (O) on the reactants side of the equation is 401.18 grams of mercury and 16.00 grams of oxygen.
2Hg + O2 ---> 2HgO
we can see that there are 2 mercury atoms (Hg) and 1 oxygen molecule (O2) on the reactants side. To calculate the total mass of mercury and oxygen on the reactants side, we need to know the molar mass of each element.
The molar mass of mercury (Hg) is approximately 200.59 grams/mol, and the molar mass of oxygen (O) is approximately 16.00 grams/mol.
Since we have 2 mercury atoms, the total mass of mercury on the reactants side is:
2 mol Hg * 200.59 g/mol Hg = 401.18 grams of mercury
For oxygen, we have 1 oxygen molecule (O2), so the total mass of oxygen on the reactants side is:
1 mol O2 * 16.00 g/mol O2 = 16.00 grams of oxygen
Therefore, the total mass of mercury (Hg) and oxygen (O) on the reactants side of the equation is 401.18 grams of mercury and 16.00 grams of oxygen.