Important Notice: Our web hosting provider recently started charging us for additional visits, which was unexpected. In response, we're seeking donations. Depending on the situation, we may explore different monetization options for our Community and Expert Contributors. It's crucial to provide more returns for their expertise and offer more Expert Validated Answers or AI Validated Answers. Learn more about our hosting issue here.

How Do You Calculate The Molar Concentration Of A Solution?

April 26, 2017CALCULATE concentration Games Hobbies molar Nature solution TOYS

0

Posted

How Do You Calculate The Molar Concentration Of A Solution?

2 Answers

0

Posted

A concentration represents the amount of a dissolved compound (solute) in a solution. The molar concentration or molarity (M) reports the number of moles of the solute in one liter (L) of the solution. As an example, the molarity of 160 g of sodium perchlorate (NaClO4) dissolved in 400 ml of distilled water will be calculated. Step 1 Find the atomic weights of the elements that compose the dissolved compound from the periodic table of the elements (see Resources). In the example, the atomic weights of sodium (Na), chlorine (Cl) and oxygen (O) are 23, 35.5 and 16 respectively. Step 2 Add the atomic weights of all atoms in the molecule to compute its molecular mass. In this example, the molecular mass of NaClO4 is 23 + 35.5 + (4 x 16) = 122.5 g/mole. Step 3 Divide the mass of the dissolved compound by its molecular mass to calculate the number of moles. In the example, the number of moles of NaCO4 is 160 g / 122.5 g/mole = 1.3 moles. Step 4 Divide the volume of the solution (in ml) by 1,

0

Posted

A concentration represents the amount of a dissolved compound (solute) in a solution. The molar concentration or molarity (M) reports the number of moles of the solute in one liter (L) of the solution. As an example, the molarity of 160 g of sodium perchlorate (NaClO4) dissolved in 400 ml of distilled water will be calculated. Find the atomic weights of the elements that compose the dissolved compound from the periodic table of the elements (see Resources). In the example, the atomic weights of sodium (Na), chlorine (Cl) and oxygen (O) are 23, 35.5 and 16 respectively. Add the atomic weights of all atoms in the molecule to compute its molecular mass. In this example, the molecular mass of NaClO4 is 23 + 35.5 + (4 x 16) = 122.5 g/mole. Divide the mass of the dissolved compound by its molecular mass to calculate the number of moles. In the example, the number of moles of NaCO4 is 160 g / 122.5 g/mole = 1.3 moles. Divide the volume of the solution (in ml) by 1,000 to convert it to liters