Chemistry Form 5 Module Nilam Answer 13
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Although there have been tremendous advances in the pharmaceutical industry, the majority of drugs still are developed by the industry. Many pharmaceutical companies have come out with alternative ways to treat diseases and one of them is using plants. It has become very important to know what is in a food product and how it affects the body. People in the U.S. need to become more educated about how their food and beverages are made and what it contains. This is what I am preparing for a class that I will be teaching in the health education department at my local college. The class is being taught by a professor from the pharmaceutical industry and this class is the first of several classes that will be taught by me. In this class, the students will learn about how plants can be used for medicines and how you can eat your vegetables. They will learn about how to buy and store your food. In addition, they will be taught about eating healthy and their diet will be changed because of this class. This will give the students a better understanding of what they are eating and not just consuming the food. Many people are not educated about the health benefits of eating certain fruits and vegetables. The class will also provide the students with an understanding of how to make homemade food, using unprocessed ingredients. They will learn about how to make healthy cookies, cakes, and snacks. They will also be taught about using different ingredients to replace unhealthy ingredients. I will also teach the students about the different vitamins and minerals that are in certain foods. The class will also give the students an understanding of the benefits of spices. For example, that spices can boost your immune system and prevent cancer from forming. By learning about this class, the students will have a better understanding of what they are eating and the health benefits of it.
Abstract: Combinatorial chemistry methods have led to the discovery of novel nanomaterials with a range of properties and applications. Synthetic techniques allow for tailoring the nanostructure of these materials, which in turn can be used to precisely control the properties of the compounds. Herein we present a systematic, computational study of the electrical properties of large arrays of single-walled carbon nanotubes. In particular, we investigate the charge transport of random forests of CNTs, and how the electrical properties of the CNT forest are influenced by the properties of the individual CNTs. The approach taken here is to combine a high-performance computing approach, for the solution of the Poisson equation, with a local semi-empirical approach for the determination of the local dielectric constant. We demonstrate that the effective electrical properties of arrays of CNT forests depend significantly on the CNT-CNT distance. Furthermore, we show that the effective electrical properties of CNT forests can be tailored by incorporating CNTs with a range of diameters, chiralities, and metallicities. These findings will potentially provide guidelines for the future design and fabrication of novel CNT-based nanoelectronic and optoelectronic devices, which in turn, can be used to address current material, energy, and environmental challenges. 827ec27edc