How to Calculate the Volume of Nitric Acid?

What is the density of nitric acid (HNO3)?

The density of nitric acid (HNO3) is 1.41 g/ml.

How many ml are in 20.0g of the nitric acid?

Answer: 14.2

Explanation: To find mL we must cancel grams. We do this by the equation: 20/1.41 = 14.2 mL

Density of Nitric Acid (HNO3)

The density of nitric acid (HNO3) plays a crucial role in determining the volume of a given mass of the acid. In this case, the density of nitric acid is 1.41 g/ml. This means that for every 1 ml of nitric acid, it has a mass of 1.41 grams.

Calculating Volume from Mass

When we are given a mass of nitric acid, such as 20.0g in this scenario, we can calculate the volume by using the density and the given mass. By dividing the mass by the density, we can determine the volume of the nitric acid.

Final Result

By applying the formula: 20.0g / 1.41 g/ml = 14.2 ml, we find that there are 14.2 ml of nitric acid in 20.0g. This calculation is essential in various chemical processes that require precise measurements of substances.

← How to convert alds to megameters Unlocking the mystery of liquid liquid extraction glassware →