![Write the approximate wavelengths for red light\\[\\begin{align} \\text{A}\\text{. 1000A}{}^\\circ \\\\ \\text{B}\\text{. 2000A}{}^\\circ \\\\ \\text{C}\\text{. 9000A}{}^\\circ \\\\ \\text{D}\\text{. 8000A}{}^\\circ \\\\ \\end{align}\\] Write the approximate wavelengths for red light\\[\\begin{align} \\text{A}\\text{. 1000A}{}^\\circ \\\\ \\text{B}\\text{. 2000A}{}^\\circ \\\\ \\text{C}\\text{. 9000A}{}^\\circ \\\\ \\text{D}\\text{. 8000A}{}^\\circ \\\\ \\end{align}\\]](https://www.vedantu.com/question-sets/0eca45d3-e6b4-439d-ad28-d456234fccdd2480126006524322874.png)
Write the approximate wavelengths for red light\\[\\begin{align} \\text{A}\\text{. 1000A}{}^\\circ \\\\ \\text{B}\\text{. 2000A}{}^\\circ \\\\ \\text{C}\\text{. 9000A}{}^\\circ \\\\ \\text{D}\\text{. 8000A}{}^\\circ \\\\ \\end{align}\\]
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![SOLVED: From the electromagnetic wave spectrum below, we know: 1) Blue light has a higher frequency than red light. 2) Blue light has a shorter wavelength than red light. 3) Blue light SOLVED: From the electromagnetic wave spectrum below, we know: 1) Blue light has a higher frequency than red light. 2) Blue light has a shorter wavelength than red light. 3) Blue light](https://cdn.numerade.com/ask_images/c2d18edd483c47acac9175148675e058.jpg)
SOLVED: From the electromagnetic wave spectrum below, we know: 1) Blue light has a higher frequency than red light. 2) Blue light has a shorter wavelength than red light. 3) Blue light
![SOLVED: (3) Red light has a frequency of 4.0 x 10^14 Hz: (a) Find the speed of light in a vacuum if its wavelength is 7.5 x 10^-7 m? (b) As the SOLVED: (3) Red light has a frequency of 4.0 x 10^14 Hz: (a) Find the speed of light in a vacuum if its wavelength is 7.5 x 10^-7 m? (b) As the](https://cdn.numerade.com/ask_images/ec0d5397e50b4c90bffb497a7b4a65b7.jpg)