What is the final concentration if 75.0 ml of a 3.50 m glucose solution is diluted to a volume of 400.0 ml?

Answer: the final concentration is 0.656M

Explanation:

The concentration may be expressed in several ways. In this case, since the data talks about volume of the solution, the correct unit of the value 3.50 is M (capital M, and not m), so it is 3.50 M, which means 3.50 Molar

Hence, we are dealing with molarity.

The equation for molarity, M, is:

M = number of moles of solute / volume of solution in liters

Wnen you solve for the number of moles of solute, you get:

number of moles of solute = M * volume in liters of the solution

When it is said that the glucose solution is diluted to a volume of 400.0 ml, means than only solvent was added. That implies, that the number of moles of solute of the final (diluted) solution is the same number of moles of the 3.50 M glucose solution.

That permits you to wite theses equations:

# moles of glucose in 3.50 M solution, n₁

n₁ = 3.50 M * 75.0 ml * 1 liter/1000 ml

# moles of glucose in the diluted solution, n₂

n₂ = C * 400.0ml * 1 liter / 1000 ml

n₁ = n₂

⇒ 3.50 M * 75.0 ml * 1 liter/1000 ml = C * 400.0ml * 1 liter / 1000 ml

Solve for the unknown concentration, C:

C = 3.50 M * 75.0 / 400.0 = 0.656M

The answer is expressed with three significant digits, because 75.0 ml and 3.50 M are expressed with three significant digits.