1. On the chart below, arrange the following regions of the electromagnetic spectrum in order of decreasing wavelength: infrared, ultraviolet, green, blue, red, and x-rays. (long) - ) ) ( ( energy per photon ( ) Label the proper ends of the frequency line “high" and "low," and indicate with arrow heads which is the higher end. Color Violet Also label the proper ends of the energy line "high" and "low," again indicating with arrow heads which is the higher end. wavelength frequency 2. A typical value for the wavelength of violet light is 400.0 nm and a typical value for the wavelength of red light is 700.0 nm. Using these wavelength values, complete the following table: Wavelength Red 400.0 nm 700.0 nm Show calculations for violet light here: (short) Frequency J/photon ·( Energy ) kJ/mol photons

1. On the chart below, arrange the following regions of the electromagnetic spectrum in order of decreasing wavelength: infrared, ultraviolet, green, blue, red, and x-rays. (long) - ) ) ( ( energy per photon ( ) Label the proper ends of the frequency line “high" and "low," and indicate with arrow heads which is the higher end. Color Violet Also label the proper ends of the energy line "high" and "low," again indicating with arrow heads which is the higher end. wavelength frequency 2. A typical value for the wavelength of violet light is 400.0 nm and a typical value for the wavelength of red light is 700.0 nm. Using these wavelength values, complete the following table: Wavelength Red 400.0 nm 700.0 nm Show calculations for violet light here: (short) Frequency J/photon ·( Energy ) kJ/mol photons

Chemistry: The Molecular Science

5th Edition

ISBN:9781285199047

Author:John W. Moore, Conrad L. Stanitski

Publisher:John W. Moore, Conrad L. Stanitski

Chapter5: Electron Configurations And The Periodic Table

Section: Chapter Questions

Problem 133QRT

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