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Chemical Symmetry, 2005.
An analysis of the importance of symmetry in inorganic chemistry
1,110 words (approx. 4.4 pages), 3 sources, MLA, $ 38.95
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Abstract
This paper examines how identifying the irreducible representation associated with a given bond, atom or sets, is of great value for three reasons. It looks at how it is a convenient way of labeling orbitals for reference, for determining which sets of atomic orbitals can combine with each other to form molecular orbitals and thirdly, for determining the number and nature of vibrational motions for a given molecule to give the most common applications.
From the Paper
"Improper rotation is a combination of rotation followed by reflection in the plane perpendicular to the axis of rotation. As with the other symmetry operations, the motion of the atoms is the operation. The symmetry element associated with improper rotation is an axis, which is the same axis as that used for the rotation part of the improper rotation. While there is a plane of reflection involved, it does not need to be specified for the improper rotation axis because it is always perpendicular to the rotation axis. Improper rotations are designated with the letter S. Reflection across the xy plane, which is perpendicular to the z axis doesn't move any of the atoms for this planar molecule."
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Radium, 2005.
A discussion about the origins and current uses of radium.
1,574 words (approx. 6.3 pages), 6 sources, MLA, $ 51.95
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Abstract
This paper briefly discusses the way that radium was discovered and first used. It explains how the awareness of the dangers of exposure were non-existent at the time and how many of the original workers with the substance died from poisoning. The paper looks at the precautions taken these days and how the use of the substance has developed.
From the Paper
"Radium, a pure metal, was discovered by the Polish chemist Marie Sklodowska Curie and her husband Peter, a French chemist, in 1898 from unrefined pitchblende, a material containing uranium (Gagnon 2004), or urarinite, in Joachimsthal, North Bohemia (Chemistry Operations 2003). Marie Curie observed that radium was more radioactive than uranium when they were separated. In 1911, she and Debiene isolated the pure metal through an amalgam of pure radium chloride, distilled in an atmosphere of hydrogen (Chemistry Operations). Seven tons of pitchblende yields 1 gram of radium. It belongs to the alkaline-earth family of metals that loses 1% of its activity only every 25 years. Lead is its final by-product in the long disintegration process (Chemical Operations). It is recommended that radium and minerals and materials containing radium should be exposed to the air to prevent radon from building up."
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MSG Bioprocessing, 2005.
A look at monosodium glutamate (MSG) and its uses.
1,768 words (approx. 7.1 pages), 8 sources, APA, $ 57.95
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Abstract
This paper examines MSG and its uses and takes a look at how it is made, including the fermentation process. The paper also discusses the technical details of the preparation process, the equipment commonly used, the use of enzymes and bacteria and examines the product packaging and quality control procedures. Finally, the paper includes a brief description of the market of MSG, and the socio-economic aspects of the product.
From the Paper
"Monosodium glutamate, or MSG, is the sodium salt of glutamic acid. Glutamate is an amino acid that occurs naturally in many foods known for their flavor, such as tomatoes and mushrooms. Additionally, glutamate is found as a naturally occurring amino acid in foods such as meat, fish, and many vegetables. It can also be found in foods such as ice cream, yogurt, soda, canned soups, flavored crackers, and chips. Glutamate is also produced in the human body naturally, helping to regulate the body's metabolic rate (WHO, 1988)."
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Pharmaceutical Licensing, 2004.
An analysis of compulsory licensing of pharmaceutical products.
4,300 words (approx. 17.2 pages), 12 sources, MLA, $ 113.95
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Abstract
This paper highlights the causes and effects of the compulsory licensing of pharmaceutical products. The paper discusses the fundamental positions, attitude, inclination, and concerns of the developed world and the under-developed world with regard to the intellectual property rights of the pharmaceutical products. The paper also concentrates on the subject of the intellectual property rights of the biotechnology products. The paper also exposes the priorities of both the developed world and the under-developed world, priorities that have been a major hurdle in all previous negotiations on Intellectual Property Rights (IPR) protection. Subsequently, the paper gives practical recommendations that ought to be followed in all future negotiations so that both parties can derive maximum benefits from the patentability of pharmaceutical products.
From the Paper
"Over the years, it has become a general belief that biodiversity will pave the way for a solution to almost all the diseases that exist today and continue to negatively influence our lives. This belief has led scientists to take further steps in the Research and development (R&D) of biotechnology. These steps comprise of various compounds, compounds that are biologically active, compounds that are natural resources, for example microbes, insects, fungi, marine organisms, and plants. However, laboratories are not capable of producing these complex biologically active and complex compounds. This is because the key places of genetic biodiversity are situated in the tropical and the subtropical regions of the world (Tara, 1994). Therefore, it is imperative for biotech scientists to go into the tropical forests with the purpose of locating these biologically active compounds."
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G Protein-Linked Receptors, 2004.
An analysis of G protein-linked receptors in communication between cells.
3,973 words (approx. 15.9 pages), 16 sources, MLA, $ 107.95
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Abstract
This paper analyzes the fundamentals of the large and complex body of information already collected and still in progress on the subject of G protein-linked receptors. The paper highlights the basic nature of G protein-linked signaling and explains how physiological regulation occurs through particular mechanisms.
From the Paper
"Cells in multi-cellular organisms, like animals, need to communicate among themselves in directing and regulating growth, development and organization (Altruis Biomedical Network 2003). Such communication modes include secreting chemicals that signal to distant cells, display cell surface chemicals that influence other cells in direct physical contact, and directly through porous cellular points called gap junctions (Altruis Biomedical Network). Endocrine signaling demonstrates the first mode, wherein hormones are secreted in the bloodstream to distant target cells. Paracrine signaling illustrates the second mode, wherein local chemical mediators are secreted and act only on cells in the proximate environment. And synaptic signaling exhibits the third mode, wherein molecules are released by vesicles at those junctions called synapses. The molecules are neurotransmitters that spread out and act only on the postsynaptic target cell (Altruis Biomedical Network). Protein receptor molecules that are on or within the target cells bind to the hormone, paracrine or neurotransmitter and a response results, depending on the speed and selectivity of the delivered signal."
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Women and Science, 2004.
A discussion about the acceptance of women in the field of science.
754 words (approx. 3.0 pages), 2 sources, MLA, $ 26.95
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Abstract
This paper examines the fact that issues of gender continue to strongly influence both scientific literature and the practice of science today. Based on notions of gender that developed during the enlightenment and the Victorian era, the paper explores science's long history of incorporating gender norms and sex dichotomies into science.
From the Paper
"Notions of gender have influenced the historic development of science in the west, as reason and science have long been seen as male traits. Similarly, gender ideals such as the characterization of females as maternal, associated with nature, irrational, and week have been reflected in scientific literature. Today, science continues to be influenced by ideas of gender, as literature reflects gender biases, and female scientists routinely must challenge gender biases."
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Entropy, 2004.
An analysis of entropy, the spontaneous dispersal of energy.
1,000 words (approx. 4.0 pages), 4 sources, MLA, $ 35.95
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Abstract
This paper discusses the concept of entropy, describing how it governs every physical, chemical, and biological aspect of life. The paper explores two different perspectives to view entropy: that it is essentially dispersive in nature and that it is constructive in nature. The paper provides examples to illustrate entropy.
From the Paper
"Entropy effects are seen in almost every instance of life. At an atomic and molecular level, the energy of substances is associated with their motion. A more energetic compound has greater motion. This atomic and molecular motion can be translational, vibrational and/or rotational, in decreasing order of energy. Each of these motions is associated with energy levels that are discrete. Atoms and, in turn, molecules cannot have randomly assigned energies. This means that substances can possess only discrete quanta or packets of energy."
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temporarily unavailable
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Linear sp Carbon Allotropes, 2004.
This paper discusses that, while modern day discoveries of new carbon allotropes are reported, the characterization of allotropy remains ambiguous as the definition of what constitutes an allotrope is under debate.
1,200 words (approx. 4.8 pages), 50 sources, MLA, $ 41.95
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Abstract
This paper explains that the linear sp carbon of Lagow?s proposed length and structure is contradicted by the unlikelihood of such a stable, long chain allotrope, granting more validity to Hirsch?s argument against the existence of Lagow?s carbon allotrope. The author points out that controversy arises because, while they do not directly fit the definition of allotropes, non-molecular allotropes like diamond and graphite will terminate with other elements (so no longer a pure element) to become stable. The paper concludes that future scientific work in this area is required to determine a true carbon sp allotrope of usable stability, if one exists, but at this time, Hirsch?s position remains the more plausible basis of allotropic characterization.
From the Paper
"The IUPAC Red Book defines allotropes as ?different structural modifications of [an] element,? with allotropic transition considered the ?transition of a pure element, at a defined temperature and pressure, from one crystal structure to another which contains the same atoms but which has different properties?. This definition excludes ozone and oxygen, and does not discuss the classification of carbon allotropes, which can be examined on the basis of the hybridization of their valence orbitals. More modern definitions include the classification of tin where one allotrope is a covalently bonded solid and the other a metal, and differentiate between allotropic molecules, such as dioxygen, infinite covalent solids, like diamond, and infinite, covalently bonded layers with weak intermolecular forces, as seen with graphite. There are also materials that crystallize where the covalent bonding between the elements is unchanged, which are termed polymorphs rather than true allotropes."
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Crystalline Silica in the Workplace, 2004.
A study of the effects of exposure to crystalline silica in the workplace.
23,700 words (approx. 94.8 pages), 38 sources, MLA, $ 249.95
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Abstract
This study provides a discussion of silica, the evolution of crystalline silica dust exposure concerns, an overview of the various uses of crystalline silica in the workplace, a summary of the various governmental regulations and standards that currently govern crystalline silica in the workplace, and the International Agency for Research on Cancer (IARC) evaluation process for classification of silica, a discussion of how the presence of crystalline silica is currently determined and measured in the workplace, as well as what can be done to protect workers from exposure to this hazardous material. Additionally, the various health risks resulting from crystalline silica exposure are discussed, including the relationship between crystalline silica exposure and the incidence of silicosis, cancer, and various autoimmune disorders. Finally, the specific dangers of exposure in the construction industry and among heavy-equipment operators are explored, and the growing body of legal actions resulting from crystalline silica exposure is discussed.
Contents
Introduction
Problem Statement
Purpose of Study
Importance of Study
Scope of Study
Rationale of Study
Definition of Terms
Overview of Study
Review of Literature
History of Crystalline Silica Exposure
Use of Crystalline Silica
Measurement of Crystalline Silica
Determining the Presence of Silica in the Workplace
Measuring Workplace Exposure to Crystalline Silica
Protection Against Crystalline Silica
Silicosis Resulting from Crystalline Silica
The IARC Evaluation Process
IARC Classification of Silica
Amended IARC Evaluation of Silica as a Carcinogen
Crystalline Silica and Autoimmune Diseases
Exposure to Silica in Construction
Exposure to Silica Among Heavy Equipment
Exposure to Silica in Sandblasters
Legal Actions
Death in the Workplace
Regulation
OSHA's Hazard Standard
Relevant OSHA Regulations
Methodology
Approach
Data Gathering
Database of Study
Validity of the Data
Originality & Limitations of the Data
From the Paper
"Silicon is classified as a nonmetal, but it has many of the properties that are associated with metals. Some scientists refer to this type of an element as a metalloid. Silicon acts like a metal and conducts electricity at high temperatures, but at low temperatures, it behaves more like an insulator and does not conduct electricity. Therefore, it is referred to as a semiconductor. This particular property is what made silicon the perfect element to propel technology into the world of transistors, then integrated circuits, and finally today's computer chip (Boegel, 1968).
Silica is a chemical compound, as opposed to an element, and is formed from silicon and oxygen atoms. A chemical compound is defined as ?a distinct and pure substance formed by the union of two or more elements? (USGS, 1992, p. 3). Due to the abundance of the elements of oxygen and silicon, the natural formation of silica is quite common. Silica sand, the substance from which pure silicon is derived, is made of quartz. Quartz is the most common form of silica found in nature."
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