Molarity (without stoich)

To make a 1 M solution with 6 mol of Sodium Hydroxide, you would need 6 liters of the solution.

To find the molarity, first calculate the moles of NaCl: 4g / 58.45 g/mol = 0.0684 mol. Then, divide moles by liters: 0.0684 mol / 3.8 L = 0.018 M.

The molarity is calculated by dividing the moles of sucrose by the volume in liters. Moles = 186.55g / 342g/mol = 0.545 mol. Molarity = 0.545 mol / 0.25 L = 2.18 M.

To calculate the grams needed, use the formula: grams = Molarity x Volume x Molar Mass. Substituting the values, grams = 0.125 x 0.25 x 169.87 = 5.3g. Therefore, 5.3g of AgNO3 are needed to prepare the solution.

The molarity is calculated by dividing moles of solute by liters of solution. In this case, 1.0 mole of KCl in 750.0 mL (0.75 L) gives a molarity of 1.3 M

To find the molarity, divide the moles of solute by the volume of solution in liters. 1.565 moles / 0.5 L = 3.13 M.

To make 3.5 M HCl with 1.1 moles, divide moles by concentration: 1.1 moles / 3.5 M = 0.31 L required.

The formula for molarity is moles/liters. This ratio represents the number of moles of solute dissolved in one liter of solution.

To find the moles of potassium bromide, use the formula Moles = Volume (L) x Concentration (M). Moles = 0.045 L x 0.465 M = 0.0209 mol. Therefore, 0.0209 mol of potassium bromide are present.

To find molarity, divide moles of solute by liters of solution. Molarity = 0.444 mol / 0.654 L = 0.679 M. Therefore, the correct choice is 0.679 M.