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Series
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English
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"Students see chemistry in action in this thorough but accessible informational text is aligned to science core curriculum, includes crosscutting concepts, and covers carbon bonding, chains, and rings, alcohol and acids, other organic compounds such as esters, aldehydes, ketones, ethers, amines, and halides, and polymers. Fact boxes about key terms, events, people, discoveries, and technologies, along with sidebars that give everyday examples of chemical...
2) Phosphorus
Author
Series
Language
English
Formats
Description
Discusses phosphorus and its properties and uses.
3) Oxygen
Author
Series
Language
English
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Description
Discusses oxygen and its properties and uses.
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English
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Description
When it comes to chemistry, most kids have more questions than answers. Why do you get cavities when you eat too much sugar? How does sun block protect your skin from getting sunburn? What makes soda so fizzy? Why do you need antifreeze in your car? Teenager Alexa Coelho quizzed her neighbor, chemist Simon Field, with hundreds of perplexing questions, and now she has the answers. Field covers a wide variety of concepts from simple to complex, but...
5) Nitrogen
Author
Series
Language
English
Formats
Description
Provides a brief overview of elements, atoms, and atomic structure; discusses the forms nitrogen can take; and examines its uses.
6) Hydrogen
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Series
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English
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Description
Discusses hydrogen and its properties and uses.
Author
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English
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Description
Science is all around us in our daily lives. Specifically, chemistry! When your bread toasts, when your shampoo foams, when the playground slide rusts--those are all chemical reactions. In this book, a mother and daughter expereince all these things and more as they go about their day, from when they wake up, to when they go to bed.
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Series
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English
Formats
Description
"Whether they are testing a new drug, creating new materials, or checking the safety of our food and water, all scientists follow the scientific method. One of the major steps in the scientific method is testing your hypothesis. That's when scientists hit the lab! This volume stresses the important of safety in the laboratory-whether it's a school science lab or the most high-tech research facility. It also examines the proper rules and procedures...
Publisher
The Great Courses
Pub. Date
2016.
Language
English
Description
Probe the methods used by researchers to create molecules that can correct medical problems such as inflammation, bacterial infections, and cancer. As an example, study the lock-and-key model of enzyme activity, which explains how many enzymes work, highlighting a potential weak link that can be exploited by drugs.
Publisher
The Great Courses
Pub. Date
2014.
Language
English
Description
How do organic chemists actually prove the behavior of molecules and chemical structures you've learned about in the preceding lectures? The answer: spectroscopy, which entails the observation of the interaction between matter and light. In the first of several lectures on the topic, focus specifically on observations made with the UV-visible spectrum.
Publisher
The Great Courses
Pub. Date
2016.
Language
English
Description
Dig deeper into the nucleus to discover how so little matter can convert into the tremendous energy of a nuclear explosion, as described by Albert Einstein's famous mass-energy equation. Focus on nuclear binding energy and mass defect, both of which are connected to the release of nuclear energy.
Publisher
The Great Courses
Pub. Date
2016.
Language
English
Description
Return to the periodic table, introduced in Lecture 1, to practice predicting properties of elements based on their electronic structure. Then, witness what happens when three different alkali metals react with water. Theory forecasts a pronounced difference in the result. Is there?
Publisher
The Great Courses
Pub. Date
2014.
Language
English
Description
Complete your mastery of the trifecta of fundamental organic reactions with a lecture on addition, which adds new groups to unsaturated molecules by sacrificing pi bonds for more stable sigma bonds. You'll explore the basics of addition reactions; the hydrogenation of alkenes and alkines; the ways addition has helped create food additives; and much more.
Publisher
The Great Courses
Pub. Date
2014.
Language
English
Description
Nitroglycerine, dynamite, TNT. What do these explosives have in common? They all contain highly reactive compounds that combine nitrogen and oxygen in organics. Look closely at these and other materials in this in-depth lecture on functional groups containing nitrogen and oxygen that covers everything from nitrate esters to trinitrotoluene to amino acids.
Publisher
The Great Courses
Pub. Date
2016.
Language
English
Description
Take a short tour of geochemistry, starting at Earth's core and working your way to the surface. Discover why our planet has a magnetic field, how radioactive atoms move continents and build mountain ranges, and why digging a hole to extract resources can produce a chemical catastrophe.
Publisher
The Great Courses
Pub. Date
2014.
Language
English
Description
Turn now to nitrogen, which has played an important role in the chemistry of life since it began. Learn the chemistry of primary, secondary, and tertiary amines, the simplest of nitrogen-containing compounds. Also, consider imines (containing a pi-bond to nitrogen) and nitriles (where two pi bonds are present), including the simplest and most well-known nitrile: hydrogen cyanide.
Publisher
The Great Courses
Pub. Date
2014.
Language
English
Description
Discover how solubility makes for an extremely effective tool for isolating non-volatile organic compounds through liquid-liquid and solid-liquid extractions (part of a larger phenomenon known as partitioning). As you delve into these processes, you'll learn one way to better understand extractions: making a perfect cup of tea.
Publisher
The Great Courses
Pub. Date
2016.
Language
English
Description
Although light has wave-like properties, it also behaves like a particle that comes in discrete units of energy, termed quanta. Learn how physicists Max Planck, Albert Einstein, and others built a revolutionary picture of light that recognizes both its wave- and particle-like nature.
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