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Question: Describe the fundamental principle of UV-Visible spectroscopy

11 Oct 2022,12:12 AM

 

1. Describe the fundamental principle of UV-Visible spectroscopy

2. Describe the relationship between absorbance and transmittance

3. What are bandwidth and resolution?

4. Describe common detectors used in UV-Vis instruments

5. Describe the Beer-Lambert Law

6. What are the considerations that need to be taken when analyzing liquid samples?

7. Why is it important to select an appropriate cuvet during UV-Vis analyses?

8. Why is the solvent an important parameter for UV-Vis analyses?

Expert answer

 

UV-visible spectroscopy is a type of spectroscopy that uses light in the ultraviolet and visible regions of the electromagnetic spectrum to analyze materials. This type of spectroscopy can be used to determine the structure, composition, and optical properties of a material.

 

One of the advantages of using UV-visible spectroscopy is that it can be used to analyze a wide range of materials, including inorganic and organic compounds. This type of spectroscopy can also be used to study the interaction of light with matter.

 

UV-visible spectroscopy is a powerful tool for analyzing the structure of molecules. It can be used to determine the shape and size of molecules, as well as their chemical composition. This type of spectroscopy can also be used to study the interactions between molecules and between atoms.

 

UV-visible spectroscopy can be used to study a wide variety of physical and chemical processes. For example, this type of spectroscopy can be used to study how light interacts with matter, how molecules absorb and emit light, and how light is scattered by particles.

 

UV-visible spectroscopy can be used to investigate the structure of materials at the atomic level. This type of spectroscopy can be used to study the bonding between atoms, as well as the interactions between molecules.

 

UV-visible spectroscopy can be used to study a wide variety of chemical reactions. For example, this type of spectroscopy can be used to study the kinetics of reactions, as well as the mechanisms of reactions.

 

UV-visible spectroscopy can also be used to study environmental processes. For example, this type of spectroscopy can be used to monitor atmospheric pollution or to study...............

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