10 g is 10,000 mg and in 1 liter that would be 10,000 ppm. You need to have a volume in order to express the mass as ppm. In other words, 10 g NaCl cannot be expressed as parts per million unless you have the volume that it is in. If it's in a liter, then you will have 10,000 ppm.
The answer is 7,5g.
The answer is 3,211 g.
To make a 3.7% EDTA solution, you would add 3.7 grams of EDTA to 100 mL of solution.
89.3
Sodium sulfate is not prepared from hydrogen chloride.
The answer is 7,5g.
The answer is 3,211 g.
To prepare a 0.01N solution of sodium metabisulfite, you would need 2.31 grams of sodium metabisulfite per liter of solution.
To make a 2 molar solution of hydrochloric acid, you would need to know the volume of the solution you want to make. Once you have the volume, you can use the molarity formula (M = moles of solute / liters of solution) to calculate the grams of hydrochloric acid needed.
290 grams
The sodium chloride mass needed is 292,2 g
To determine the grams of sodium sulfate needed, you first need to specify the molarity (M) of the sodium sulfate solution. Once you have the molarity, you can use the formula: grams = molarity (M) x volume (L) x molar mass (g/mol). This will give you the amount of sodium sulfate in grams needed to make the solution.
To find the grams needed for 5.00 ml of the solution, you can use the formula: mass = volume x density. Simply multiply the volume (5.00 ml) by the density (1.50 g/ml), which gives you 7.50 grams of the solution.
To make a 3.7% EDTA solution, you would add 3.7 grams of EDTA to 100 mL of solution.
Put 100 grams in a beaker and and around 500 mls of water until it dissolves, then top up the beaker to a liter. That is your 10% solution. The percentage solution is a ratio of the weight of the compound to the weight of the final solution.
A US pint is 473 grams. - An Imperial pint is 568 grams
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.