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Peter Debye, 2002.
A discussion on the life, achievements and research of Peter Debye, winner of 'The Nobel Prize' in Chemistry 1936.
750 words (approx. 3.0 pages), 4 sources, MLA, $ 26.95
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Abstract
The following paper discusses what Peter Debye was awarded the Nobel Prize for and lists the other awards he received throughout his lifetime. This paper also looks at Debye's early modification of a theory belonging to Einstein as well as contributions to chemistry.
From the Paper
"Peter Debye (1884-1966) was awarded The Nobel Prize in Chemistry 1936 for what the Nobel e-museum describes as his contributions to our knowledge of molecular structure through his investigations on dipole moments and on the diffraction of X-rays and electrons in gases.(Nobel e-museum) He has a chemical unit of measure named for him debye units (D) , which measures the dipole moment for polar molecules. (Chang, 308) Aside from The Nobel Prize in 1936, he received Honorary Doctorates from & Brussels and Liege; Oxford; Sofia; Maniz; Technische Hochschule, Aachen; Eidgenosissche Technische Hochschule, Switzerland; Harvard; St. Lawrence; Colgate; Notre Dame; Holy Cross; Brooklyn Polytechnic; Boston College, Providence College."
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Dimitri Mendeleev, 2002.
This paper discusses the life and contributions of Dimitri Mendeleev, the founder of the first Periodic Table of Elements.
940 words (approx. 3.8 pages), 4 sources, MLA, $ 33.95
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Abstract
This paper looks at the life-long contributions that Dimitri Mendeleev made to the field of chemistry. The author details Mendeleev's personal and professional biography including his battle against childhood disease which almost cost him his life. His family's struggle to insure that he was able to study at a prestigious university and to overcome the poverty into which he had been born influenced his drive to constantly work and succeed in his chosen field. In 1869 Mendeleev constructed the first Periodic Table of Elements. He also authored many books in the field of chemistry and predicted the discovery of many different elements, as well as weights and measure. The author also notes his many contributions to the advancement of technology in Russia.
From the Paper
Mendeleev was born in 1834 in Siberia. His family consisted of thirteen brothers and sisters, his mother and his father. The family was poor, his father eventually went deaf before he died, and yet Mendeleev's mother insisted that her youngest child further his education. He hitchhiked over 14,000 miles across Russia to Moscow, only to be turned down by the University of Moscow because he was from Siberia. His mother never gave up, and the two of them traveled to St. Petersburg where he trained and eventually became a Professor of inorganic chemistry at the University of. St. Petersburg. (Chang, 233) During his third year of study there, Mendeleev fell ill, and was bedridden for the next year. He kept up with his studies, and graduated on time, and received the medal of excellence for being first in his class. (Rumppe, Sixtus
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Kekule and the Structure of Benzene, 2002.
A discussion on Kekule's structure theory of Benzene.
855 words (approx. 3.4 pages), 5 sources, MLA, $ 30.95
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Abstract
The following paper discusses Friedrich Kekule's interest in chemistry and examines how he came to be the originator of the structure theory for his study on chemical bonds. However this paper also examines how Kekule's formula for the structure of benzene was wrong. This paper provides the reader with the correct formula and explains what Kekulu's formula was missing.
From the Paper
"The charred body of a woman is found and the trial began. Friedrich Kekule testified before the grand jury. Many believed her death was caused by combustion from overdrinking of alcohol. However, Justus von Liebig and Kekule believed otherwise. This testimony incriminated a servant who had stolen from the woman. This began the turning point in Kekule's life as he pursued his new interest of chemistry and the beginning formula of benzene (Lienhard 1).
"Friedrich August Kekule has been said to be the originator of the structure theory and for his study on chemical bonds. Kekule was born on September 7, 1829 in Germany. Kekule attended school at Darmstadt. He was intelligent and spoke French, Italian, and English. Kekule in 1847 attended the University of Giessen and studied architecture (Ulearntoday 1)"
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Friedrich August Kekule, 2002.
A paper on Friedrich August Kekule, a German chemist known for his work with benzene.
820 words (approx. 3.3 pages), 4 sources, MLA, $ 29.95
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Abstract
The following paper takes a look at the life of Friedrich August Kelule, known as the originator of the structure theory of benzene. This essay discusses Kelule's interest in chemistry, beginning with a trial concerning a charred woman's body.
From the Paper
"Kelule went to a trial about a woman's charred body. Many believed she had combustion because she drank too much alcohol. However, Justus von Liebig testified in this trial and ignited Kekule's interest in chemistry. He changed his studies from architecture to chemistry. Charles Gerhardt and Jean-Baptiste Dumas taught him the unitary theory of chemistry. From 1855 to 1858 Kekule debated with JFW von Baeyer until 1858 and was professor at Ghent and Bonn (Ulearntoday 1)."
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Linus Pauling, 2002.
This paper introduces and discusses the life of Nobel Prize winning scientist, Linus Pauling.
925 words (approx. 3.7 pages), 3 sources, MLA, $ 32.95
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Abstract
The following paper discusses the life of Linus Pauling, focusing on his achievements and discoveries. The writer discusses how in 1954, Pauling was awarded the Nobel Prize in chemistry for his work in chemical bonds and in 1962 he won the Nobel Peace Prize for his efforts on behalf of a nuclear test ban treaty. This paper also discusses his book "The Nature of the Chemical Bond and the Structure of Molecules and Crystals".
From the Paper
"Linus Pauling was born in Portland, Oregon, on February 28, 1901. When he was nine, his father died, and his mother eventually lost the drugstore her husband had owned. The family, consisting of Linus, his two sisters, and his mother, had to move into a smaller house. His mother took in borders, and money was always a constant worry for the family. Pauling was a good student, and loved to read anything he could get his hands on. He said, "I have always wanted to know as much as possible about the world. As a child, I enjoyed reading and going to school... Possibly I am a scientist because I was curious when I was young... When I was eleven, with no outside inspiration - just library books - I started collecting insects... When I was twelve I began reading about rocks and minerals and started collecting them"
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The Kinetics of Chemical Reactions., 2001.
An investigation into the kinetics of the reaction between hydrogen peroxide and potassium iodide in an acidified solution.
4,500 words (approx. 18.0 pages), 14 sources, $ 117.95
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Abstract
The paper deals with a very detailed investigation into how the kinetics of a reaction changes from alterationss in pH, the concerntration of reactants and the addition of a catlyst in a homogenous solution. Also included is the most effective, yet efficient manner, of determining the rate of the reaction including detailed mathematical calculations. There is a lot of experimental data as evidence included and a detailed practical guide of how the investigation was undertaken and numerous discussions.This paper is essential as a reference for those studying reaction kinetics.
From the Paper
"Investigate the kinetics of the above reaction and thus attempt to find a rate equation for the reaction and also establishing the best method to determine the rate of the reaction. I will do this by varying the concentrations of Iodide ions, H+ ions and Hydrogen Peroxide to generate the rate equation, I will also try to find the effect of a catalyst: Molybdate ion on the rate of reaction and also if the amount of catalyst is relevant in a homogenous reaction. The rate will be found using the iodine clock reaction and also by the use of a pH meter and a colorimeter, and these methods will be assessed to help determine the best method of analysis."
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The Development of Aspirin and Salbutamol, 2001.
How Aspirin and Salbutamol were developed and a description of how they interact with the body.
1,150 words (approx. 4.6 pages), 10 sources, $ 39.95
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Abstract
This paper digs deeply into how aspirin and salbutamol were developed and also how they interact in the body from a heavy chemical and neurological perspective. It also gives a detailed overview into how, in general, pharmacueticals are developed using bronchodilars as an example. Also included are numerous diagrams in order to aid the reader comprehend the text.
From the Paper
"Since 400BC physicians prescribed a bitter powder extract from the willow bark tree to alleviate pain. In the middle of the 18th century two chemists by the name of Fontana and Brugnatelli extracted the active agent Salicin from the willow, and was then converted by Piria into Salicylic acid. Felix Hoffman a German chemist set about trying to synthesise salicylic acid."
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Growth of Bacteria, 2002.
A detailed investigation into how bacterial growth is affected by antibacterial agents.
3,500 words (approx. 14.0 pages), 3 sources, MLA, $ 98.95
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This paper deals with how spots occur (inflamed lesions), and their subsequent bacterial growth. It gives details into how the effect of various concentrations of anti-bacterial facewashes affect the spread of bacteria. A thorough experimental aceptic technique is made reference to in this paper.
From the Paper
"A spot starts when a pore in the skin becomes blocked - usually with oil (sebum) and dead skin cells, which the skin produces. As the pore becomes blocked, it becomes infected with bacteria, which are normally present on the surface of the skin. These bacteria breakdown the oil and dead cells to form chemicals which cause swelling, redness and the formation of an "inflamed lesion" or a SPOT."
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Antimatter, 2002.
A basic technical outline on antimatter - a substance matter found in the universe.
1,095 words (approx. 4.4 pages), 29 sources, MLA, $ 38.95
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Abstract
A explanation of what antimatter is, where it originated, what its uses are and how much energy it can produce. It looks at the benefits of this matter.
From the Paper
"Antimatter is a rare substance that at one time was abundant in our universe. Antimatter is relatively simple, consisting of the same parts that make up the elements in our planet. The only difference is: an atom of antimatter is a 'mirror image' of a regular atom. Antimatter and normal matter both have neutrons, which make up a good portion of the mass of the nucleus. Normal atoms have negatively charged electrons which encircle the nucleus, and they also help to determine the charge of the atom. In Antimatter, those 'electrons' do not exist, they are called 'antielectrons', sometimes known as 'positrons', and they have a positive charge. The Protons of in a normal nucleus are also different in an atom of antimatter. They are called 'Antiprotons', and have a negative charge."
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Titanium, 2001.
This paper is a detailed look at the chemical element, titanium.
885 words (approx. 3.5 pages), 7 sources, MLA, $ 31.95
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Abstract
This paper examines all things related to the atomic element titanium. The author describes its properties, color, appearance, from where it can be mined and the discovery of the element. The paper also discusses commercial extraction and the various uses for titanium.
From the Paper
"Titanium is not commonly used because it is among the most difficult of all metals to obtain in pure form. It has high reactivity with carbon, nitrogen, and oxygen at high temperatures, which means that it cannot be extracted from its ores using the types of process commonly used for other metals. Although titanium compounds have been known since 1795, it was not until 1910 that the New Zealand-born metallurgist Matthew Hunter, working in the United States, produced the first pure sample of the metal."
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E. Coli, 2001.
This paper discusses using the bacteria E. coli for molecular genetic research.
4,215 words (approx. 16.9 pages), 14 sources, APA, $ 112.95
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Abstract
This a detailed, and well researched paper discussing how e. coli can be prepared and used for study of Molecular genetics. The author looks at how e.coli lends is an ideal candidate for this area because it is such a simple organism. The paper also examines how scientists have been immeasurably helped in their progression of learning about the fundamentals of molecular genetics by the fact that E. coli can be induced into competence through a number of methods. The paper includes numerous illustrations.
From the Paper
"Most of us, when we think of Escherichia coli at all, tend not to have very pleasant associations with the organism. It is in fact among the organisms that are most likely to affect (and infect) households. While E. coli is actually an integral part of the normal gastrointestinal flora, certain strains can cause diarrhea, fever and vomiting by one of three ways: by giving off toxins, by directly invading the mucosal lining of the intestinal wall, or by adhering to the intestinal wall. A person infected with E. coli may also have malaise or overall weakness and abdominal cramps. And a new virulent strain of E. coli, which is passed to humans via contaminated and improperly stored or prepared food, can cause a fatal kidney condition - a finding that has prompted public health and food industry officials to suggest changes in the meat-inspection process, including the irradiation of some ground beef. But the bad name that E. coli deserves as a very nasty bug that infects humans must be offset by the fact that study of this organism has vastly increased our understanding of the field of molecular genetics. This paper outlines some of the most important basic principles of this field by focusing on the specific findings that studying E. coli have allowed scientists to derive."
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The Importance of Calcium Compounds, 2001.
The following paper discusses the need for and uses of calcium in our bodies, lives and industries.
1,180 words (approx. 4.7 pages), 10 sources, MLA, $ 40.95
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Abstract
This paper describes the need and benefits of calcium in our lives and discusses the detrimental or negative effects of overusing calcium resources.
From the Paper
"It is obvious, the impact that calcium compounds have on our world today. It goes without saying that our lives would be very different without them. They are an essential mineral to maintain health, and an important component of many things that we need to make our lives better.
However, all of this convenience is not without cost."
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