QuestionJune 17, 2025

Identify the true statements about wavelengths of light. Select the TWO answers that are correct. Green light has more energy than any other wavelength of visible light. Red light has a longer wavelength and less energy than blue light. Plants reflect wavelengths of light that our eyes cannot detect. In the absence of visible light,photosynthesis proceeds with infrared wavelengths. Plants absorb wavelengths of light that our eyes perceive as green.

Identify the true statements about wavelengths of light. Select the TWO answers that are correct. Green light has more energy than any other wavelength of visible light. Red light has a longer wavelength and less energy than blue light. Plants reflect wavelengths of light that our eyes cannot detect. In the absence of visible light,photosynthesis proceeds with infrared wavelengths. Plants absorb wavelengths of light that our eyes perceive as green.
Identify the true statements about wavelengths of light. Select the TWO answers that are correct. Green light has more energy than any other wavelength of visible light. Red light has a longer wavelength and less energy than blue light. Plants reflect wavelengths of light that our eyes cannot detect. In the absence of visible light,photosynthesis proceeds with infrared wavelengths. Plants absorb wavelengths of light that our eyes perceive as green.

Solution
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Answer

Red light has a longer wavelength and less energy than blue light. ### Plants absorb wavelengths of light that our eyes perceive as green. Explanation 1. Evaluate energy and wavelength relationship Green light does not have more energy than any other visible wavelength. Energy is inversely related to wavelength; shorter wavelengths (like violet) have more energy. 2. Compare red and blue light Red light has a longer wavelength and less energy than blue light, which has a shorter wavelength and more energy. 3. Assess plant reflection and absorption Plants reflect green light, which our eyes can detect, not wavelengths our eyes cannot detect. 4. Consider photosynthesis with infrared light Photosynthesis primarily uses visible light, not infrared wavelengths, in the absence of visible light. 5. Determine plant absorption Plants absorb wavelengths that are not green; they appear green because they reflect green light.

Explanation

1. Evaluate energy and wavelength relationship<br /> Green light does not have more energy than any other visible wavelength. Energy is inversely related to wavelength; shorter wavelengths (like violet) have more energy.<br />2. Compare red and blue light<br /> Red light has a longer wavelength and less energy than blue light, which has a shorter wavelength and more energy.<br />3. Assess plant reflection and absorption<br /> Plants reflect green light, which our eyes can detect, not wavelengths our eyes cannot detect.<br />4. Consider photosynthesis with infrared light<br /> Photosynthesis primarily uses visible light, not infrared wavelengths, in the absence of visible light.<br />5. Determine plant absorption<br /> Plants absorb wavelengths that are not green; they appear green because they reflect green light.
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