It depends on how much solution you have!
"1 molar solution" means that 1 litre of the solution contains 1 mole of solute (in this case, Na+ and Cl- ions). Therefore, 1 litre of 1M NaCl will contain 1 mole of sodium chloride. 1 mole is avagadro's number (6.02x1023) of a substance. If you have two litres of solution, obviously, you will have twice this number, for example.
Note, though, that there are NO molecules of sodium chloride - sodium chloride is not a molecular substance.
The answer is the number of Avogadro: 6,02214129(27)×1023 molecules.
Exact 1 mole sodium chloride.
200 milliliters
The mass of NaCl is 14,61 g.
If we add 1 L of water to 1 L of 2 M NaCl solution will give 2 L of 1 M NaCl solution
1,000,000,000,000,000,000 1 Quintilian
A solution of NaCl 1 M.
It depends how strong a solution you want to make. The molecular mass of NaCl is 58.44, so for a 1 molar solution you would dissolve 58.44 grams in water and make the volume up to 1 litre. For a 0.1 mol solution you'd take 5.844g to a litre, and a 2 mol solution you'd take 116.88g to a litre of water.
2M NaCl is a equivalent to a solution with 116,88 g NaCl in 1 L water.
1.5g NaCl x (1 mole / 58.5 g NaCl) x (1000 ml / 0.42 mole) = 61.05 ml
One mole of NaCl = 6,02214129(27) × 1023 mol−1 (molecules ) - this is number (constant) of Avogadro.
0.1 Moles
Not exactly. Saline solution is sterilized and is a dilution of sodium chloride (NaCl) - meaning that the NaCl is dissolved in deionized water. The solution is 9 grams of sodium chloride (NaCl) dissolved in 1 liter of water.
That refers to a mixture consisting of 2/100 of sodium chloride (salt) and 98/100 of something else (usually water).