A sample of C3H8 has 6.72 x 10^24 H atoms. What is the total mass of the sample?

Question:- A sample of C3H8 has 6.72 x 10^24 H atoms. What is the total mass of the sample?

Answer

To find the total mass of the sample of C3H8, we need to follow these steps:

Given information:

The chemical composition of this compound is C3H8.

The sample is composed of the 6.72 × 10^24 H atoms.

Step 1: Calculate the molar mass of the C3H8 molecule.

The molar mass of C3H8 = 3×12.011 g/mol + 8×1.008 g/mol = 44.097 g/mol.

Step 2: Calculate the number of C3H8 in the given sample.

Number of H atoms of single C3H8 molecule is 8.

Number of molecules of C3H8 = (6.72 × 10^24) H atoms / 8 = 8.4×10^23 molecules

Step 3: Calculate the moles of C3H8 the sample contains.

Number of moles = (1 molecule / Avogadro’s Constant)

Moles = (8.4 × 10^23 molecules) / (6.022 × 10^23 molecules / mol) = 1.395 mol.

Step 4: Work out total mass of the sample.

Mass equal to the sum of (moles number) × (molecular weight).

Subtotal weight = 1.395 moles x 44.097 g/mole = 61.51 grams.

Therefore, the total mass of the discovered C3H8 sample is 61.51 grams remembering that it contains 6.72 × 10^24 hydrogen atoms.