![]() ![]() In this module you will study how diseases are categorised and how the human body defends against infection. You will be able to identify different bacteria using microbiological techniques and investigate the growth of microorganisms. You will develop your skills in the laboratory growing bacteria under laboratory conditions safely. You will also compare and contrast mitosis and meiosis linking this to natural selection. You will study key concepts in genetics and inheritance and apply this to solve genetic problems. You will also learn about important cellular processes involving transport. In this module you will study cell structure and function and learn the biochemical basis of life. You will also carry out quantitative chemical testing for organic and ionic compounds, becoming an expert in the lab. You will carry out a range of important laboratory techniques such as titrations, chromatography, distillation and melting point determination. You will study theories relating to and factors that affect the speed of a range of useful chemical reactions in the chemical industry. In this module you will learn how to explain concepts including enthalpy and kinetics whilst gaining skills in chemistry calculations. You will apply this knowledge to medical and pharmaceutical problems in the real world. Study the structure and formulae of organic compounds in order to explain and link physical and chemical properties. You will also gain laboratory observation skills in this module linked to a range of chemical reactions. You will study how to link trends in the periodic table to physical properties of elements. You will study a range of groups in the periodic table in order to identify patterns. You will also become confident in using equations for calculations in science as well as using maths to help determine and analyse relationships. You’ll develop your skills in how to apply mathematical models to scientific data. In his office, Gray stores his precious specimens in a literal Periodic Table, a wooden four-legged table with 118 cubbies.You will gain knowledge of a range of core topics including chemical change, the periodic table and chemical bonding. You can even purchase posters of his work. Theodore Gray has spent the last five years collecting and photographing every single element. This guy even got it tattooed in his arm. What would you pick? The Nottingham researchers aren't the only ones obsessive about the periodic table. One researcher selects neodymium, for its Christmas-y colors more than one picks platinum, the most expensive element. Their latest video is called "What Element Would You Like for Christmas?" in which they pose that question to researchers, all of whom seem to have a ready answer. ![]() Check out the entire Periodic Table of Videos. The team goes to great lengths to showcase the elements, including handling vials of highly toxic arsenic and traveling to frosty Ytterby, Sweden (the birthplace of yttrium, ytterbium, terbium, and erbium). An amazing team at the University of Nottingham has been sharing its love of the periodic table by making short Youtube videos of all 118 elements, from helium to ununoctium. Anyone who has taken time to ponder the periodic table has his or her favorites, whether it's based on their explosive properties (potassium), their illustrious namesakes (curium, named after the Curies), or their silly abbreviations (Uup, Uuh). For the science-inclined, there is something very sexy about the periodic table and how, by a simple accounting of protons in atomic nuclei, its neat rows and columns reveal the peculiar behaviors of elements-the irreducible components of our world. ![]()
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