Difference between revisions of "Crystals and Polymers"

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{{Infobox
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| title  = Crystals and Polymers
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| header1 = Science Course
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| label2 = Course Code | data2 = [[Crystals and Polymers|CPOL]]
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| label3 = Year Opened | data3 = 2004
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| label4 = Sites Offered | data4 = [[CGV]], [[LOS]]
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| label5 = Previously Offered | data5 = [[ALE]], [[BRI]], [[EST]], [[LAJ]], [[SRF]]
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}}
 
{{Baby CTY Courses}}
 
{{Baby CTY Courses}}
[[Crystals and Polymers]] is a [[Baby CTY]] course which has students learn about chemical structure such as types of rocks and metals. Its course code is [[Crystals and Polymers|CPOL]]. This course is offered at:
 
 
First Session Only: [[Los Angeles (Loyola Marymount)]], [[La Jolla]]
 
 
Second Session Only: [[Bristol]] and [[Alexandria]]
 
 
Both Sessions: [[Easton]]
 
 
 
==Course Description==
 
==Course Description==
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[https://web.archive.org/web/20040219112326/http://cty.jhu.edu:80/summer/employment/science.html#cpol From the CTY Course Catalog] (2004):
  
From the CTY Summer Catalog:
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Why do some plastic containers melt in the microwave while others don’t? What makes Silly Putty stretchy? How are packing peanuts made? Chemicals are key to answering these questions, and in this course, you’ll examine how their structure can determine the properties and behaviors of gems and polymers. Starting with the most basic building blocks, atoms, you’ll learn about ions and compounds, and grow crystals like salt and rock candy in the lab, marveling at how small changes in structures of gems can cause dramatic changes in shapes and colors. You’ll also synthesize slime or Silly Putty to investigate molecular chain length and cross-linking, isolate strawberry DNA and denature proteins to learn about biopolymers, and experiment with superabsorbent molecules like those used in diapers to research how different plastics are synthesized. By the end of the course, you’ll understand the chemistry behind many materials we use every day.
 
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[[Category: Courses]]
Why do some plastic containers melt in a microwave oven while others don’t? What makes Silly Putty® stretchy? How are packing peanuts made? Chemical structure provides the key for answering these questions. In this introductory chemistry course, students examine how the many different possible arrangements of a small number of basic building blocks determine the properties and behaviors of gems and polymers.
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[[Category: Collegeville]]
 
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[[Category: Los Angeles (LMU)]]
Students begin by investigating the building blocks: atoms. As they learn about ions and the three-dimensional structure of compounds, students construct models and grow crystals such as salt or rock candy in the lab. They discover how small changes in the structures of different gems lead to dramatic changes in their shapes and colors. Moving on to polymers, students synthesize slime or silly putty to investigate concepts such as molecular chain length and cross-linking. They then explore commercial applications, experimenting with superabsorbent molecules like those used in diapers. Students also research how different plastics are synthesized and how that affects their properties, including recyclability and malleability. Finally students engage in activities such as isolating strawberry DNA and denaturing proteins to study biopolymers.
 
 
 
Throughout the course, students apply their new-found knowledge of chemical bonding and structure to develop a more thorough understanding of the materials in their everyday lives.
 
 
 
Lab Fee: $65
 
 
 
Students must have completed grades: 5 or 6
 

Latest revision as of 09:23, 22 March 2023

Crystals and Polymers
Science Course
Course CodeCPOL
Year Opened2004
Sites OfferedCGV, LOS
Previously OfferedALE, BRI, EST, LAJ, SRF
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Course Description

From the CTY Course Catalog (2004):

Why do some plastic containers melt in the microwave while others don’t? What makes Silly Putty stretchy? How are packing peanuts made? Chemicals are key to answering these questions, and in this course, you’ll examine how their structure can determine the properties and behaviors of gems and polymers. Starting with the most basic building blocks, atoms, you’ll learn about ions and compounds, and grow crystals like salt and rock candy in the lab, marveling at how small changes in structures of gems can cause dramatic changes in shapes and colors. You’ll also synthesize slime or Silly Putty to investigate molecular chain length and cross-linking, isolate strawberry DNA and denature proteins to learn about biopolymers, and experiment with superabsorbent molecules like those used in diapers to research how different plastics are synthesized. By the end of the course, you’ll understand the chemistry behind many materials we use every day.