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What are the two ways to look at Chemistry?
The question is a little vague. There can be many ways to look at chemistry, such as organic chemistry and inorganic chemistry.
How is chemistry useful to us?
Chemistry is useful to us in many ways suppose you have gone to your village and they need fertilizers and you buy fertilizers this is also chemistry...
Ways on how chemistry is contributed for the improvement of chemistry?
research
Why do you study organic and inorganic chemstry separately?
This is something of a historical perspective that simply hasn't been changed over the last hundred years or so. Inorganic chemistry covers the basics of atomic interactions, reactions, the formation of molecules and how those molecules interact with each other. Organic chemistry is typically taught separately from this, and usually after a student has mastered inorganic chemistry, because the properties of organic molecules differ greatly from those of inorganic molecules. The same principles still apply, but there are many more factors to consider and ways in which organic molecules can act.
Is cotton organic?
Cotton can be grown in organic ways.
Organic chemistry is the study compounds containing what element?
Organic Chemistry, is a branch of chemistry in which carbon compounds and their reactions are studied. A wide variety of classes of substances-such as drugs, vitamins, plastics, natural and synthetic fibers, as well as carbohydrates, proteins, and fats-consist of organic molecules. Organic chemists determine the structures of organic molecules, study their various reactions, and develop procedures for the synthesis of organic compounds. Organic chemistry has had a profound effect on modern life: It has improved natural materials and it has synthesized natural and artificial materials that have, in turn, improved health, increased comfort, and added to the convenience of nearly every product manufactured today.------------------------------------------------------------------------------------------------------------ Horse Isle - Carbon -DaveyBoy on bay/brown sever
What is the role of chemistry in medicine industry?
chemistry can be used in the medical field in a variety of ways. For example, most of the medicines u would use for something like a cold are examples of biochemistry. Small amounts of radiation can also be used for things like X-Rays and for the sterilization of medical equipment
What are the easy ways to understand geometry very clear?
There are no easy ways
How do you remenber equations in chemistry?
The best ways to remember chemistry equations is through flashcard memorization or acronyms.
What branch of chemistry deals only with chemical combinations of elements other than carbon?
This, technically, is a trick question. A mostly true, useful answer, but not entirely accurate one is to say, that "Organic chemistry is the study of Carbon compounds. Inorganic Chemistry, is the study of everything else." Here's the problem. Organic Chemistry is a highly dense complex study of all the strange and wonderful properties of carbon that lead it to be the building block of life, and it's end results. Carbon lives a double life, however, and isn't exclusively defined by it's organic strangeness. For example, one of the sub-branches of inorganic chemistry is industrial chemistry. You study that, and discover that carbon is still there, and still doing strange things. Just those strange things (look at diamonds, nano tubes and properties of graphite) are more typical of other elements on the periodic table. So this is Clark Kent carbon, and Organic Chemistry is about Super Man carbon. They are the same thing but operate in different ways. It is true that Organic Chemistry is almost all about carbon, but that doesn't preclude carbon taking various other roles in other branches of chemistry. Why? Because carbon is so common. It can't beat out Hydrogen, naturally, but it is running neck and neck with Nitrogen, which is still insanely common. You can't really do chemistry in the real world for very long without tripping over carbon in some form or compound. I suppose there may be some branch of theoretical Chemistry that attempts to extrapolate properties of a universe without Carbon, but... that's pretty out there. You are unlikely to run into it outside of a sheltered university environment.
How does carbon become of organic molecules?
In living organisms, carbon fixation (incorporation of atmospheric inorganic carbon dioxide into organic compounds) is carried out by certain microbes and most plants and the other organisms feed on plants to acquire their organic compounds. The process of carbon fixation is called photosynthesis and it's driven by sun light and catalyzed by enzymes. In organic chemistry labs, chemists have found ways to either create organic molecules from inorganic ones or add carbon onto preexisting organic molecules, though these processes require very strigent reaction conditions that are different from those in living organisms, mostly because we cannot make use of enzymes the same way as living organisms do. The earliest experiments involved reacting carbon dioxide and ammonia by adding an electrical current, making urea as the product. Current organic chemstry techniques have countless ways to manipulate organic compounds and it will be futile to try to list even a fraction of the techniques. Follow the link below for a Wikipedia page that has links to a large number of possible organic chemistry reactions.
How does carbon become part of organic molecule?
In living organisms, carbon fixation (incorporation of atmospheric inorganic carbon dioxide into organic compounds) is carried out by certain microbes and most plants and the other organisms feed on plants to acquire their organic compounds. The process of carbon fixation is called photosynthesis and it's driven by sun light and catalyzed by enzymes. In organic chemistry labs, chemists have found ways to either create organic molecules from inorganic ones or add carbon onto preexisting organic molecules, though these processes require very strigent reaction conditions that are different from those in living organisms, mostly because we cannot make use of enzymes the same way as living organisms do. The earliest experiments involved reacting carbon dioxide and ammonia by adding an electrical current, making urea as the product. Current organic chemstry techniques have countless ways to manipulate organic compounds and it will be futile to try to list even a fraction of the techniques. Follow the link below for a Wikipedia page that has links to a large number of possible organic chemistry reactions.
