The boiling point of an aqueous solution can be calculated with the help of freezing point temperature. Concept introduction: Molality is the number of moles of solute to the mass of solvent. The mass of the solvent should be in kilograms ( kg ) . Calculate molality as follows: m = Moles solute Kilograms solvent …… (1) The temperature at which change of liquid state to solid state takes is called freezing point. The freezing point depression is as follows: Δ T f = m × K f …… (2) Here, Δ T f is the change in temperature of the freezing point in C ∘ , m is the molality of the solution in mol solute kg solvent and K f is the freezing point depression constant for the solvent. For water: K f = 1.86 C ∘ kg solvent mol solute The boiling point is the temperature at which vapor pressure of the liquid becomes equal to the atmospheric pressure is known as boiling point. The boiling point elevation is as follows: Δ T b = m × K b …… (3) Here, Δ T b is the change in temperature of the boiling point in C ∘ , m is the molality of the solution in mol solute kg solvent and K b is the boiling point elevation constant for the solvent. For water: K b = 0.512 C ∘ kg solvent mol solute

Question

For the compound: C8H17NO2 Use the following information to come up with a plausible structure: 8 This compound has "carboxylic acid amide" and ether functional groups. The peaks at 1.2ppm are two signals that are overlapping one another. One of the two signals is a doublet that represents 6 hydrogens; the other signal is a quartet that represents 3 hydrogens.

Answer 1

Question

Chapter 13, Problem 127E

Interpretation Introduction

Interpretation:

The boiling point of an aqueous solution can be calculated with the help of freezing point temperature.

Concept introduction:

Molality is the number of moles of solute to the mass of solvent.

The mass of the solvent should be in kilograms (kg).

Calculate molality as follows:

m=Moles soluteKilograms solvent …… (1)

The temperature at which change of liquid state to solid state takes is called freezing point.

The freezing point depression is as follows:

ΔTf=m×Kf …… (2)

Here, ΔTf is the change in temperature of the freezing point in C∘, m is the

molality of the solution in mol solutekg solvent and Kf is the freezing point depression

constant for the solvent.

For water:

Kf=1.86 C∘ kg solventmol solute

The boiling point is the temperature at which vapor pressure of the liquid becomes equal to the atmospheric pressure is known as boiling point.

The boiling point elevation is as follows:

ΔTb=m×Kb …… (3)

Here, ΔTb is the change in temperature of the boiling point in C∘, m is the

molality of the solution in mol solutekg solvent and Kb is the boiling point elevation

constant for the solvent.

For water:

Kb=0.512 C∘ kg solventmol solute

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