Submit a publish of the Introduction (Section I) for instructor approval and feedback. Your publish should include all of the following critical elements:
Introduction:
Include your choice of compound and why it was chosen.
Make a connection to your experiences.
Include a preview of what you hope to convey to the reader (this will include showing how the concepts in the class help you understand the information).
What to Submit
Your submission should be about one page in length, with double spacing, 12-point Times New Roman font, one-inch margins, and at least three citations in APA format.
What I have come up with so far:
I’m excited to delve into the compound
cellulose, a key component in renewable resources, particularly in the context
of plant-based materials. Cellulose is fascinating because of its ubiquitous
presence in the plant kingdom and its potential applications in sustainable
industries, such as biofuels, bioplastics, and textiles.
My interest in cellulose stems from both
personal and academic experiences. Personally, I’ve been increasingly drawn to
sustainable living practices, and understanding the chemistry behind renewable
resources like cellulose aligns with my goals of minimizing environmental
impact. Academically, I’ve encountered cellulose in various contexts, from
biology classes discussing plant cell structure to chemistry classes touching
on organic polymers.
Previewing what I hope to convey in Module
1, I aim to explore the molecular structure of cellulose, its properties, and
its significance in renewable resource utilization. By drawing on concepts from
my chemistry class, such as organic chemistry and polymer chemistry, I hope to
elucidate how the structure of cellulose influences its properties and its
potential applications in sustainable industries.
Cellulose is primarily composed of carbon,
hydrogen, and oxygen, with the chemical formula (C6H10O5)n. Considering the
elements involved, it’s noteworthy that carbon, with its versatile bonding
capabilities, forms the backbone of cellulose molecules. The dynamic periodic
table highlights carbon’s ability to form strong covalent bonds, which is
crucial in the formation of cellulose’s complex polymer structure. This
strength and stability are significant for the structural integrity of
cellulose-based materials.
This preliminary exploration sets the stage
for a deeper dive into cellulose, where I’ll examine its structure, properties,
and applications through the lens of concepts learned in my chemistry class.
Reference:
Dynamic Periodic Table. (2024). Retrieved
from https://ptable.com/#Properties
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