The volume of oxygen gas that is kept at 1.02 atm and 20 ° C when temperature remains unchanged is to be calculated. Also, the volume of oxygen gas when temperature increased to 35 ° C and constant pressure is to be calculated. Concept introduction: The combination of all the gas laws namely Boyle’s law, Charles law and Avogadro’s lead to the ideal gas equation that relates four properties such as given below: P V = n R T Where, R is gas constant. V denotes the volume. n denotes the number of moles. T denotes the temperature. P denotes the pressure.

Question

Kumada Coupling: 1. m-Diisobutylbenzene below could hypothetically be synthesized by Friedel-Crafts reaction. Write out the reaction with a mechanism and give two reasons why you would NOT get the desired product. Draw the reaction (NOT a mechanism) for a Kumada coupling to produce the molecule above from m-dichlorobenzene. Calculate the theoretical yield for the reaction in question 2 using 1.5 g of p-dichlorobenzene and 3.0 mL isobutyl bromide. What signals appeared/disappeared/shifted that indicate that you have your intended product and not starting material? What other impurities are present in your product and how do you know?

Answer 1

Question

Definition Definition Any of various laws that describe the ways in which volume, temperature, pressure, and other conditions correlate when matter is in a gaseous state. At a constant temperature, the pressure of a particular amount of gas is inversely proportional with its volume (Boyle's Law) In a closed system with constant pressure, the volume of an ideal gas is in direct relation with its temperature (Charles's Law) At a constant volume, the pressure of a gas is in direct relation to its temperature (Gay-Lussac's Law) If the volume of all gases are equal and under the a similar temperature and pressure, then they contain an equal number of molecules (Avogadro's Law) The state of a particular amount of gas can be determined by its pressure, volume and temperature (Ideal Gas law)

Chapter 10, Problem 10.52SP

Interpretation Introduction

Interpretation:

The volume of oxygen gas that is kept at 1.02 atm and 20 °C when temperature remains unchanged is to be calculated. Also, the volume of oxygen gas when temperature increased to 35 °C and constant pressure is to be calculated.

Concept introduction:

The combination of all the gas laws namely Boyle’s law, Charles law and Avogadro’s lead to the ideal gas equation that relates four properties such as given below:

PV=nRT

Where,

R is gas constant.

V denotes the volume.

n denotes the number of moles.

T denotes the temperature.

P denotes the pressure.

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Kumada Coupling: 1. m-Diisobutylbenzene below could hypothetically be synthesized by Friedel-Crafts reaction. Write out the reaction with a mechanism and give two reasons why you would NOT get the desired product. Draw the reaction (NOT a mechanism) for a Kumada coupling to produce the molecule above from m-dichlorobenzene. Calculate the theoretical yield for the reaction in question 2 using 1.5 g of p-dichlorobenzene and 3.0 mL isobutyl bromide. What signals appeared/disappeared/shifted that indicate that you have your intended product and not starting material? What other impurities are present in your product and how do you know?

Wintergreen from Aspirin: 1. In isolating the salicylic acid, why is it important to press out as much of the water as possible? 2. Write the mechanism of the esterification reaction you did. 3. What characteristic absorption band changes would you expect in the IR spectrum on going from aspirin to salicyclic acid and then to methyl salicylate as you did in the experiment today? Give approximate wavenumbers associated with each functional group change. What signals appeared/disappeared/shifted that indicate that you have your intended product and not starting material? What other impurities are present in your product and how do you know?

Synthesis of ZybanⓇ: 1. Write a mechanism for the bromination of m-chloropropiophenone. Br₂ CH2Cl2 Cl Br 2. Give the expected m/z (to a round number) for the molecular ion from the product above (including isotopic peaks). 3. What signals appeared/disappeared/shifted that indicate that you have your intended product and not starting material? What other impurities are present in your product and how do you know?

Answer 2

Question

Definition Definition Any of various laws that describe the ways in which volume, temperature, pressure, and other conditions correlate when matter is in a gaseous state. At a constant temperature, the pressure of a particular amount of gas is inversely proportional with its volume (Boyle's Law) In a closed system with constant pressure, the volume of an ideal gas is in direct relation with its temperature (Charles's Law) At a constant volume, the pressure of a gas is in direct relation to its temperature (Gay-Lussac's Law) If the volume of all gases are equal and under the a similar temperature and pressure, then they contain an equal number of molecules (Avogadro's Law) The state of a particular amount of gas can be determined by its pressure, volume and temperature (Ideal Gas law)

Chapter 10, Problem 10.52SP

Interpretation Introduction

Interpretation:

The volume of oxygen gas that is kept at 1.02 atm and 20 °C when temperature remains unchanged is to be calculated. Also, the volume of oxygen gas when temperature increased to 35 °C and constant pressure is to be calculated.

Concept introduction:

The combination of all the gas laws namely Boyle’s law, Charles law and Avogadro’s lead to the ideal gas equation that relates four properties such as given below:

PV=nRT

Where,

R is gas constant.

V denotes the volume.

n denotes the number of moles.

T denotes the temperature.

P denotes the pressure.

Expert Solution & Answer

Trending nowThis is a popular solution!

See solution

Check out sample textbook solution

Answer 3

Question

Definition Definition Any of various laws that describe the ways in which volume, temperature, pressure, and other conditions correlate when matter is in a gaseous state. At a constant temperature, the pressure of a particular amount of gas is inversely proportional with its volume (Boyle's Law) In a closed system with constant pressure, the volume of an ideal gas is in direct relation with its temperature (Charles's Law) At a constant volume, the pressure of a gas is in direct relation to its temperature (Gay-Lussac's Law) If the volume of all gases are equal and under the a similar temperature and pressure, then they contain an equal number of molecules (Avogadro's Law) The state of a particular amount of gas can be determined by its pressure, volume and temperature (Ideal Gas law)

Chapter 10, Problem 10.52SP

Interpretation Introduction

Interpretation:

The volume of oxygen gas that is kept at 1.02 atm and 20 °C when temperature remains unchanged is to be calculated. Also, the volume of oxygen gas when temperature increased to 35 °C and constant pressure is to be calculated.

Concept introduction:

The combination of all the gas laws namely Boyle’s law, Charles law and Avogadro’s lead to the ideal gas equation that relates four properties such as given below:

PV=nRT

Where,

R is gas constant.

V denotes the volume.

n denotes the number of moles.

T denotes the temperature.

P denotes the pressure.

Expert Solution & Answer

Trending nowThis is a popular solution!

See solution

Check out sample textbook solution

Answer 4

Question

Definition Definition Any of various laws that describe the ways in which volume, temperature, pressure, and other conditions correlate when matter is in a gaseous state. At a constant temperature, the pressure of a particular amount of gas is inversely proportional with its volume (Boyle's Law) In a closed system with constant pressure, the volume of an ideal gas is in direct relation with its temperature (Charles's Law) At a constant volume, the pressure of a gas is in direct relation to its temperature (Gay-Lussac's Law) If the volume of all gases are equal and under the a similar temperature and pressure, then they contain an equal number of molecules (Avogadro's Law) The state of a particular amount of gas can be determined by its pressure, volume and temperature (Ideal Gas law)

Chapter 10, Problem 10.52SP

Interpretation Introduction