Essay Example on Chemistry Essential for Human Existence: Sunita Bhargava

Introduction

Chemistry is part and parcel of human existence because almost every change that occurs in the environment is the result of a chemical reaction. Things like cooking, cleaning, and the color change experienced in leaves are all chemical reactions. Sunita Bhargava's article, "Role of Chemistry in Everyday Life" explores the different factors that demonstrate how chemistry supports human existence. This article reinforces most of the issues learned in class. For instance, it recognizes that chemistry covers a broad scope of knowledge that spans applications in food production, medicine, manufacture of care products, housekeeping, and the identification of hazardous elements. From the class, it is understood that one of the main processes that support life involves inhalation and exhalation. The article confirms that the process of breathing in and out is a chemical process. Further, digestion involves the chemical breakdown of foods, which helps to build and grow the body.

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The article highlights the application of chemistry in various fields. The class study introduced the various chemicals that make up most of the foods that humans consume. In this article, a list of these chemicals is listed. It notes the use of chemicals as food preservatives, emulsifiers, antioxidants, and food colors. The author succeeds in offering an extensive presentation of the diverse applications of chemistry. Chemical products are used to manufacture cosmetics, which constitute a significant proportion of the beauty industry. The author is keen to detail the particular chemical elements that make up the various products. Another key area of application of chemistry that reflects in both the class material and the article is its use in medicine. The manufacture of drugs and their classification is dependent on both chemical processes and biological responses.

Organic Chemistry

The article by Domingo, Rios-Gutierrez, and Perez (2016) addresses Conceptual Density Functional Theory (DFT), which is a framework that offers a hierarchy of well-defined concepts that allow chemists to understand the quantitative and qualitative predictions of chemical reactivity. The article offers extensive background on the elements and advantages of DFT. One of the analytical advantages identified molecular mechanisms that could be used to support and enhance organic reactions. The article notes that, with the new knowledge, Molecular Electron Density Theory is understandable. Further, these calculations make the reactivity of organic chemistry to be applicable in the determination of how organic compounds result. The understanding of the quantum-mechanical theory applies to the semi-quantitative research on reactivity, which expands the scope of application of organic chemistry.

The overall goal of the processes defined in the article advances the content of the class material on organic chemistry. Whereas organic chemistry is understood from the perspective of carbon particles, it represents life. Organic chemistry studies the structure, composition, properties, preparation, and reactions of compounds that contain carbon. Therefore, this article is in sync with the objectives of organic chemistry as taught in the class. Further, the complexity and mathematical concepts introduced to advance the class material information about organic chemistry constituting more than carbon. The broadening of organic chemistry makes it applicable to chemical reactions such as in the manufacture of plastics. Hence, understanding the specific reactions that involve hydrocarbons helps to determine the best ways to produce such products. These approaches are particularly essential when considering that products that are made from hydrocarbons. Further, these processes become relevant when issues of carbon release the environment are addressed.

Bio Chemistry

Whereas biochemistry is fundamentally viewed in terms of the application of chemistry principles to the administration of proper diagnostics that advance medicine, it defines the chemistry of life. From the course, it is understood that organic chemistry provides the foundation for all the subdisciplines of medicine. The article by Shah, Bhat, Sharma, Banerjee, and Guleria (2018), highlights the centrality of organic chemistry in human life. In the article, the author seeks to understand the possible molecular mechanism of OCPs toxicity towards the determination of dysregulation of signalling pathways that relate to differential gene expression. The research employs simple chemical processes to determine its results and reports that OCP exposure may be caused by genes that are expressed differentially. Gene ontology entails organic metabolic processes, while the treatment mechanisms require the application of chemical processes. The article, therefore, addresses an application of organic chemistry in biotechnology.

From the class resources, biochemistry entails the study of the structure, composition, preparation, and properties of compounds that can be manipulated to attend to human health challenges. These applications are not limited to the health solutions alone, but may also include the many gene alteration mechanisms that aim to make medicine more efficient. Biochemistry finds applications in advanced creative science that involves the development of new molecules and utilize existing ones to solve health challenges. One area that applies biochemistry extensively is biotechnology, where bioprocesses of living organisms are examined to determine how they may be modified for a specific use. In the pharmaceutical industry, it helps to develop medication for both animals and humans. This article presents an application of biochemistry in the solution of a medical challenge and allows the understanding between chemical elements and harm to the human body.

References

Bhargava, S. (2016). Role of Chemistry in Everyday Life. Journal of Chemistry and Chemical Sciences, Vol.6(2), 192-198. Retrieved 29 April 2020, from http://chemistry-journal.org/dnload/Sunita-Bhargava/CHEMISTRY-JOURNAL-CHJV06I02P0192.pdf.

Domingo, L. R., Rios-Gutierrez, M., & Perez, P. (2016). Applications of the conceptual density functional theory indices to organic chemistry reactivity. Molecules, 21(6), 748. https://doi.org/10.3390/molecules21060748

Shah, H. K., Bhat, M. A., Sharma, T., Banerjee, B. D., & Guleria, K. (2018). Delineating potential transcriptomic association with organochlorine pesticides in the etiology of epithelial ovarian cancer. The open biochemistry journal, 12, 16. doi: 10.2174/1874091X01812010016.