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Chapter 3: Problem 92

(a) One molecule of the antibiotic penicillin G has a mass of \(5.342 \times 10^{-21} \mathrm{~g}\). What is the molar mass of penicillin G? (b) Hemoglobin, the oxygen-carrying protein in red blood cells, has four iron atoms per molecule and contains \(0.340 \%\) iron by mass. Calculate the molar mass of hemoglobin.

Short Answer

Expert verified
The molar mass of penicillin G is approximately \(3.214 \times 10^3\ \mathrm{g/mol}\), and the molar mass of hemoglobin is approximately \(6.56 \times 10^4\ \mathrm{g/mol}\).

Step by step solution

01

Determine the mass of one mole of penicillin G molecules

Multiply the given mass of a single penicillin G molecule by Avogadro's number, which is the number of particles (atoms, ions, or molecules) in one mole of any substance. $$ MolarMass= MassOfSingleMolecule \times Avogadro's Number $$ \(MolarMass= 5.342 \times 10^{-21} \mathrm{~g} \times 6.022\times10^{23}\mathrm{~particles/mol}\)
02

Calculate the molar mass of penicillin G

Perform the multiplication to find the molar mass of penicillin G. $$ MolarMass \approx 3.214 \times 10^3\ \mathrm{g/mol} $$ The molar mass of penicillin G is approximately \(3.214 \times 10^3\ \mathrm{g/mol}\). (b) Calculating the molar mass of hemoglobin
03

Determine the total mass of iron in one hemoglobin molecule

To do this, we will use the molar mass of iron, Fe, which is approximately 55.85 g/mol. Since there are four iron atoms in one molecule of hemoglobin, we can calculate its total mass of iron as follows: $$ TotalMassOfIronInHemoglobinMolecule= 4 \times MolarMassOfIron $$ $$ TotalMassOfIronInHemoglobinMolecule = 4 \times 55.85 \mathrm{~g/mol} $$
04

Calculate the molar mass of hemoglobin based on the percentage of iron

Hemoglobin contains 0.340% iron by mass, and we have calculated the total mass of iron in one hemoglobin molecule. Now we can find the molar mass of hemoglobin, knowing the mass of iron and the percentage: $$ MolarMassOfHemoglobin = \frac{TotalMassOfIronInHemoglobinMolecule}{PercentageOfIron} $$ $$ MolarMassOfHemoglobin = \frac{4 \times 55.85 \mathrm{~g/mol}}{0.00340} $$
05

Calculate the final molar mass of hemoglobin

Calculate the molar mass of hemoglobin: $$ MolarMassOfHemoglobin \approx 6.56 \times 10^4\ \mathrm{g/mol} $$ The molar mass of hemoglobin is approximately \(6.56 \times 10^4\ \mathrm{g/mol}\).

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Avogadro's Number
Avogadro's Number is a fundamental concept in chemistry that relates to the number of particles in one mole of a substance. It is defined as approximately \(6.022 \times 10^{23}\) particles (such as atoms, molecules, or ions) per mole. This constant serves as a bridge between the microscopic world of atoms and the macroscopic world we can measure.
  • When calculating the molar mass of any substance, knowing Avogadro's Number is key because it lets us convert between the number of molecules and the amount in moles.
  • For example, if you know the mass of a single molecule, multiplying by Avogadro's Number gives you the molar mass, which is useful for many practical applications in chemistry.
In the exercise example, we used Avogadro's Number to calculate the molar mass of penicillin G by multiplying the mass of a single molecule by \(6.022 \times 10^{23}\), resulting in its molar mass.
Hemoglobin
Hemoglobin is a complex protein found in red blood cells, responsible for transporting oxygen throughout the body. It contains four iron atoms, which play a key role in binding and releasing oxygen.
  • Each molecule of hemoglobin consists of four subunits, each containing an iron atom embedded within a heme group.
  • Iron is critical for hemoglobin's function as it is the binding site for oxygen molecules.
In the exercise, we use the fact that hemoglobin has 0.340% iron by mass to calculate its molar mass. By knowing the total mass of the iron in one molecule, and the percentage, we can determine the molar mass of hemoglobin. This process involves dividing the mass of iron by the percentage it represents within the molecule.
Penicillin G
Penicillin G is an antibiotic, widely used to treat bacterial infections. Understanding its chemical properties involves exploring its molar mass.
  • The molar mass is a fundamental property that tells us the mass of one mole of its molecules, which can be derived from the mass of a single molecule.
  • Penicillin G particularly helps in demonstrating the application of Avogadro's Number to transition from micrograms of a single molecule to macroscopic amounts we can use, like grams per mole.
Through the calculation outlined in the exercise, we determine the molar mass of penicillin G. By multiplying the mass of one molecule \(5.342 \times 10^{-21} \text{ g}\) with Avogadro’s Number, we arrived at a molar mass of approximately \(3.214 \times 10^3 \text{ g/mol}\), enabling further applications in dosage and treatment decisions in medical contexts.

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Most popular questions from this chapter

A compound, \(\mathrm{Na}_{2} \mathrm{Cr}_{2} \mathrm{O}_{x}\), where \(x\) is unknown, is analyzed and found to contain \(39.70 \% \mathrm{Cr}\). What is the value of \(x\) ?

Propenoic acid, \(\mathrm{C}_{3} \mathrm{H}_{4} \mathrm{O}_{2},\) is a reactive organic liquid that is used in the manufacturing of plastics, coatings, and adhesives. An unlabeled container is thought to contain this liquid. A \(0.275-g\) sample of the liquid is combusted to produce \(0.102 \mathrm{~g}\) of water and \(0.374 \mathrm{~g}\) carbon dioxide. Is the unknown liquid propenoic acid? Support your reasoning with calculations.

The source of oxygen that drives the internal combustion engine in an automobile is air. Air is a mixture of gases, principally \(\mathrm{N}_{2}(\sim 79 \%)\) and \(\mathrm{O}_{2}(\sim 20 \%) .\) In the cylinder of an automobile engine, nitrogen can react with oxygen to produce nitric oxide gas, NO. As NO is emitted from the tailpipe of the car, it can react with more oxygen to produce nitrogen dioxide gas. (a) Write balanced chemical equations for both reactions. (b) Both nitric oxide and nitrogen dioxide are pollutants that can lead to acid rain and global warming; collectively, they are called "NO \(_{x}\) " gases. In 2009 , the United States emitted an estimated 19 million tons of nitrogen dioxide into the atmosphere. How many grams of nitrogen dioxide is this? (c) The production of \(\mathrm{NO}_{x}\) gases is an unwanted side reaction of the main engine combustion process that turns octane, \(\mathrm{C}_{8} \mathrm{H}_{18},\) into \(\mathrm{CO}_{2}\) and water. If \(85 \%\) of the oxygen in an engine is used to combust octane and the remainder used to produce nitrogen dioxide, calculate how many grams of nitrogen dioxide would be produced during the combustion of \(500 \mathrm{~g}\) of octane.

The complete combustion of octane, \(\mathrm{C}_{8} \mathrm{H}_{18}\), produces \(5470 \mathrm{~kJ}\) of heat. Calculate how many grams of octane is required to produce \(20,000 \mathrm{~kJ}\) of heat.

Epsom salts, a strong laxative used in veterinary medicine, is a hydrate, which means that a certain number of water molecules are included in the solid structure. The formula for Epsom salts can be written as \(\mathrm{MgSO}_{4} \cdot x \mathrm{H}_{2} \mathrm{O},\) where \(x\) indicates the number of moles of \(\mathrm{H}_{2} \mathrm{O}\) per mole of \(\mathrm{MgSO}_{4}\). When \(5.061 \mathrm{~g}\) of this hydrate is heated to \(250^{\circ} \mathrm{C},\) all the water of hydration is lost, leaving \(2.472 \mathrm{~g}\) of \(\mathrm{MgSO}_{4} .\) What is the value of \(x ?\)
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