Chemistry
Chemistry
4th Edition
ISBN: 9780078021527
Author: Julia Burdge
Publisher: McGraw-Hill Education
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Chapter 13, Problem 149AP
Interpretation Introduction

Interpretation:

The molar mass of protein and actual mass of protein is to be calculated with given mass, volume, pressure, and temperature.

Concept Introduction:

The property that depends on the concentration of solute molecules and not on the identity of solute is termed as colligative property.

The four colligative properties of solution are vapor-pressure lowering, boiling point elevation, freezing point depression, and osmotic pressure.

Osmotic pressure (πp) of a solution is the product of molarity, gas constant, and temperature. It is expressed as follows:

π=MRT

Here, π is the osmotic pressure, M is the molarity, R is the gas constant, and T is the temperature.

The molarity of a solution can be expressed as

M = nV

Here, M is the molarity, n is the number of moles, and V is the volume in liters.

The molar mass of the protein is calculated as

M= mn

Here, M is the molar mass, m is the given mass, and n is the number of moles.

Expert Solution & Answer
Check Mark

Answer to Problem 149AP

Solution:

(a)

2.14×103 g/mol

(b)

4.50×104 mol

Explanation of Solution

a) The molar mass of protein from given data

Calculate the molarity of the solution using the equation given below:

M=πRT

Substitute 0.257 atm for π,  0.0821 L.atm.mol-1.K-1 for R, and 298 K for T

M=0.257 atm(0.0821Latm/molK)(298K)=0.0105M

This is the concentration of all the ions. The moles of solute dissolved are calculated as

M = nV

Here, M is the molarity, n is the number of moles, and V is the volume in liters.

Rearrange the above equation and substitute the values of molarity and volume:

n=(0.0105 mol1 L×0.0100 L)=1.05×104 mol

The molar mass of the protein is calculated as

M= mn

Here, M is the molar mass, m is the given mass and n is the number of moles.

Substitute 0.225 g for m and 1.05×104 mol for n

M= 0.225 g1.05×104 mol=2.14×103 g/mol

Therefore, the molar mass of protein is 2.14×103 g/mol.

b) The actual molar mass of protein

Protein is a strong electrolyte. The Van’t Hoff factor will be 21.

Calculate the molarity of the solution using the equation given below:

M=πiRT

Substitute 0.257 atm for π,  0.0821 L.atm.mol-1.K-1 for R, 21 for i, and 298 K for T

M=0.257 atm(21)(0.0821Latm/molK)(298K)=5.00×104M

This is the actual concentration of the protein. The moles of solute dissolved are calculated as

M = nV

Here, M is the molarity, n is the number of moles, and V is the volume in liters.

Rearrange the above equation and substitute the values of molarity and volume

n=(5.00×104 mol1 L×0.0100 L)=5.00×106 mol

The actual molar mass is calculated as

M= mn

Here, M is the molar mass, m is the given mass, and n is the number of moles.

Substitute 0.225 g for m and 5.00×106 mol for n

M= 0.225 g5.00×106 mol=4.50×104 g/mol

Therefore, the molar mass of protein is 4.50×104 g/mol.

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Chapter 13 Solutions

Chemistry

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Solutions: Crash Course Chemistry #27; Author: Crash Course;https://www.youtube.com/watch?v=9h2f1Bjr0p4;License: Standard YouTube License, CC-BY