Q2. Categorize the polymer Nylon 6 in terms a specific mode of assembly, reaction type, and mechanistic process. Provide a retrosynthetic analysis of the polymer and answer the following- c) Derive a monomer that could be employed to make Nylon 6 d) List the characteristic features of reaction type you mentioned above e) In theory, the polymer can be produced by either condensation, step- growth polymerization or by addition, chain-growth polymerization. Draw a generalized mechanistic process for step-growth synthesis of Nylon 6.

Q2. Categorize the polymer Nylon 6 in terms a specific mode of assembly, reaction type, and mechanistic process. Provide a retrosynthetic analysis of the polymer and answer the following- c) Derive a monomer that could be employed to make Nylon 6 d) List the characteristic features of reaction type you mentioned above e) In theory, the polymer can be produced by either condensation, step- growth polymerization or by addition, chain-growth polymerization. Draw a generalized mechanistic process for step-growth synthesis of Nylon 6.

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Question

amorphous
To = 100 °C
Tm=
Polystyrene (PS)
[CH₂-HC t
semi-crystalline
(-rapidly)
T₂ = 100 °C
Tm = 270 °C
CH₂
HC
CH₂
HC
CH₂
HC
CH₂
HC
CH₂
semi-crystalline
(→slowly)
T₂ = 100 °C
Tm= 240 °C
Q2. Categorize the polymer Nylon 6 in terms a specific mode of assembly,
reaction type, and mechanistic process.
Provide a retrosynthetic analysis of the polymer and answer the following-
c) Derive a monomer that could be employed to make Nylon 6
d) List the characteristic features of reaction type you mentioned above
e) In theory, the polymer can be produced by either condensation, step-
growth polymerization or by addition, chain-growth polymerization. Draw
a generalized mechanistic process for step-growth synthesis of Nylon 6.

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Step 2: a. Categorize Nylon 6 in terms of mode of assembly, reaction type and mechanistic process

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Step 4: c. Derive a monomer that could be employed to make Nylon 6

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