Branches of Chemistry

Free Animated Education

20 Mar 201905:02

Summary

TLDRThis video explores the major branches of chemistry, each with its unique applications and importance. Analytical chemistry involves analyzing chemical components in samples, essential for fields like forensic science and environmental monitoring. Biochemistry studies chemical processes in living organisms, while organic chemistry focuses on carbon compounds found in living things and synthetic materials. Inorganic chemistry examines non-carbon-based compounds, and industrial chemistry applies chemical processes to transform raw materials into useful products. Finally, nuclear chemistry explores atomic nucleus changes with applications in medicine and the formation of elements. The video provides insights into these branches and invites viewers to share their interests in chemistry.

Takeaways

😀 Analytical chemistry helps determine the chemical components of a sample, such as measuring caffeine in tea or detecting drugs in urine samples.
😀 Analytical chemistry has two main branches: qualitative analysis (identifying components) and quantitative analysis (measuring component quantities).
😀 Biochemistry is the study of chemical processes in living organisms, exploring molecules like proteins, enzymes, and hormones.
😀 Biochemistry includes disciplines like enzymology, endocrinology, clinical biochemistry, and molecular biochemistry, each focusing on different aspects of living organisms.
😀 Organic chemistry studies carbon compounds, such as fuels, plastics, food additives, and drugs, and also investigates chemical changes in living organisms.
😀 Organic chemists synthesize new materials and develop methods to isolate or study them, contributing to products like medicines and cosmetics.
😀 Inorganic chemistry studies non-carbon compounds, such as metals, minerals, and elements from the periodic table, often related to non-living substances.
😀 Industrial chemistry applies chemical and physical processes to transform raw materials into products that benefit humanity, such as in manufacturing and food production.
😀 Nuclear chemistry explores the properties of elements influenced by changes in the atomic nucleus, with applications in radiochemistry and medical diagnostics.
😀 Nuclear chemistry also helps us understand the formation of elements in the universe and design radioactive drugs for diagnosis in medicine.

Q & A

What is analytical chemistry and where is it applied?
-Analytical chemistry is the study of how we analyze the chemical components of a sample. It is applied in fields like forensic science, environmental science, and drug testing, helping to identify the composition of substances, such as determining caffeine content in tea or detecting drugs in athletes' urine.
What are the two main branches of analytical chemistry?
-The two main branches of analytical chemistry are qualitative analysis and quantitative analysis. Qualitative analysis helps determine the components of a substance, while quantitative analysis measures how much of each component is present.
What is the focus of biochemistry?
-Biochemistry is the study of chemical processes in living organisms. It focuses on the chemical compounds and reactions that occur in the body, such as blood pH regulation, enzyme activity, and protein functions.
How is biochemistry divided into sub-disciplines?
-Biochemistry is divided into several sub-disciplines including: Enzymology (study of enzymes), Endocrinology (study of hormones), Clinical Biochemistry (study of diseases), and Molecular Biochemistry (study of biomolecules and their functions).
What is organic chemistry and why is it important?
-Organic chemistry is the study of carbon compounds, particularly those in living organisms. It is important for understanding processes like photosynthesis and for creating practical applications such as medicines, fuels, plastics, and food additives.
What does an organic chemist do?
-Organic chemists isolate or synthesize new materials and study their properties. They contribute to developing new compounds used in pharmaceuticals, consumer goods, and industrial applications.
What is inorganic chemistry concerned with?
-Inorganic chemistry deals with the study of elements and compounds that do not contain carbon-hydrogen bonds, often focusing on minerals, metals, crystal structures, and catalysts, which are non-living substances.
How does inorganic chemistry contribute to our understanding of the Earth?
-Inorganic chemistry helps us understand the formation of elements like gold, and the properties of materials that make up the Earth, such as metals and minerals.
What is industrial chemistry, and how does it benefit humanity?
-Industrial chemistry applies chemical and physical processes to transform raw materials into products that benefit humanity. It plays a crucial role in producing materials such as plastics, chemicals, and pharmaceuticals.
What is nuclear chemistry and how is it interdisciplinary?
-Nuclear chemistry is the study of the chemical and physical properties of elements as influenced by changes in the atomic nucleus. It is interdisciplinary, with applications ranging from the formation of elements in the universe to the design of radioactive drugs for medical use.