
a.
Interpretation: The number of moles of sodium cation present in 1.0 L of
Concept Introduction: The molar concentration of a solute in a solution can be expressed in terms of molarity as moles of solute present in per liter of solution. Mathematically,
a.

Answer to Problem 6E
The number of moles of sodium cation present in 1.0 L of
Explanation of Solution
The equation (1) is rearranged as:
The given solution is 1.0 L of
So, the number of moles
Since, one mole of
Hence, the number of moles of sodium cation present in 1.0 L of
b.
Interpretation: The number of moles of sodium cation present in 1.0 L of
Concept Introduction: The molar concentration of a solute in a solution can be expressed in terms of molarity as moles of solute present in per liter of solution. Mathematically,
b.

Answer to Problem 6E
The number of moles of sodium cation present in 1.0 L of
Explanation of Solution
The equation (1) is rearranged as:
The given solution is 1.0 L of
So, the number of moles
Since, one mole of
Hence, the number of moles of sodium cation present in 1.0 L of
c.
Interpretation: The number of moles of sodium cation present in 1.0 L of
Concept Introduction: The molar concentration of a solute in a solution can be expressed in terms of molarity as moles of solute present in per liter of solution. Mathematically,
c.

Answer to Problem 6E
The number of moles of sodium cation present in 1.0 L of
Explanation of Solution
The equation (1) is rearranged as:
The given solution is 1.0 L of
So, the number of moles
Since, one mole of
Hence, the number of moles of sodium cation present in 1.0 L of
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