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When White Light from the Sun Passes Through a Prism

Question 25

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When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. , (in nanometers) of some common colors are: Blue: When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. Green: When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. Yellow: When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. Orange: When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. Red: When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. When a fireworks display made of copper is burned, it lets out light with wavelengths, When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. , that satisfy the relationship When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. . Write this inequality without absolute values; find the range of possible values for When white light from the sun passes through a prism, it is broken down into bands of light that form colors. The wavelength, , (in nanometers) of some common colors are: Blue: Green: Yellow: Orange: Red: When a fireworks display made of copper is burned, it lets out light with wavelengths, , that satisfy the relationship . Write this inequality without absolute values; find the range of possible values for . Using the preceding list of wavelengths, determine the color of that copper fireworks display. . Using the preceding list of wavelengths, determine the color of that copper fireworks display.

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