Calculate the purely theoretical lambda_max in nm for each dye in the simplest particle-in-a-box model (the Kuhn Model) by using the following equation: lambda = 63.7((P+3)^2/(P+4)) (in nm); where p is the number of carbon atoms in a polymethine chain. Dye 1: 1,1'- diethyl-2,2'-cyanine iodide Dye 2: 1,1'- diethyl- 2,2' -carbocyanine iodide (Pinacyanol) Dye 3: 1,1'- diethyl- 2,2' -dicarbocyanine iodide For the three wavelengths calculate and tabulate the wavenumber (cm^-1) and excitation energy (kJ/mol) for each

Calculate the purely theoretical lambda_max in nm for each dye in the simplest particle-in-a-box model (the Kuhn Model) by using the following equation: lambda = 63.7((P+3)^2/(P+4)) (in nm); where p is the number of carbon atoms in a polymethine chain. Dye 1: 1,1'- diethyl-2,2'-cyanine iodide Dye 2: 1,1'- diethyl- 2,2' -carbocyanine iodide (Pinacyanol) Dye 3: 1,1'- diethyl- 2,2' -dicarbocyanine iodide For the three wavelengths calculate and tabulate the wavenumber (cm^-1) and excitation energy (kJ/mol) for each

Organic Chemistry

8th Edition

ISBN:9781305580350

Author:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. Foote

Publisher:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. Foote

Chapter14: Mass Spectrometry

Section: Chapter Questions

Problem 14.37P

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Quantum theory, often known as quantum physics, is the foundation of modern physics and encompasses the nature and behavior of matter and energy at the atomic and molecular levels. As the exact nature and behavior of atomic and subatomic particles are impossible to determine, the laws of classical physics do not apply to this discipline. As a result, quantum field theory is primarily based on assumptions and probabilities.

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Dye 1: 1,1'- diethyl-2,2'-cyanine iodide

Dye 2: 1,1'- diethyl- 2,2' -carbocyanine iodide (Pinacyanol)

Dye 3: 1,1'- diethyl- 2,2' -dicarbocyanine iodide

For the three wavelengths calculate and tabulate the wavenumber (cm^-1) and excitation energy (kJ/mol) for each

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