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Blue light has a higher frequency compared to yellow light.
Yellow light has a higher frequency than red light. In the visible light spectrum, colors with shorter wavelengths have higher frequencies. Yellow light falls between green and orange in terms of wavelength and frequency, while red light has longer wavelengths and lower frequencies compared to yellow light.
No, infrared radiation (IR) does not have a higher frequency than visible light. Visible light is above IR on the electromagnetic spectrum. It (visible light) has higher frequency and shorter wavelengths than IR radiation does.
No, green light has a higher frequency than yellow light. In the visible light spectrum, colors with shorter wavelengths, such as green, have higher frequencies than colors with longer wavelengths, such as yellow.
Yellow light has a slightly higher frequency than green light. In the electromagnetic spectrum, yellow light has a frequency of around 5 x 10^14 Hz, while green light has a frequency of approximately 6 x 10^14 Hz.
Blue light has a higher frequency compared to yellow light.
Yellow light has a higher frequency than red light. In the visible light spectrum, colors with shorter wavelengths have higher frequencies. Yellow light falls between green and orange in terms of wavelength and frequency, while red light has longer wavelengths and lower frequencies compared to yellow light.
No, infrared radiation (IR) does not have a higher frequency than visible light. Visible light is above IR on the electromagnetic spectrum. It (visible light) has higher frequency and shorter wavelengths than IR radiation does.
Yellow light has a slightly higher frequency than green light. In the electromagnetic spectrum, yellow light has a frequency of around 5 x 10^14 Hz, while green light has a frequency of approximately 6 x 10^14 Hz.
No, green light has a higher frequency than yellow light. In the visible light spectrum, colors with shorter wavelengths, such as green, have higher frequencies than colors with longer wavelengths, such as yellow.
A photon of violet light has higher energy than a photon of yellow light. This is because violet light has a higher frequency and shorter wavelength compared to yellow light. The energy of a photon is directly proportional to its frequency, according to the equation E=hf, where E is energy, h is Planck's constant, and f is frequency.
Violet light has greater energy because it has higher frequency than yellow light
Each colour of visible light has a different frequency. Red has the lowest frequency, meaning it has a long wavelength. Purple has the highest frequency and has a very short wavelength. The order is: red, orange, yellow, green, blue, purple. I hope this helps you!
A photon of yellow light has lower frequency that a photon of violet light. Remember that light can be considered both as particles (photons) and as waves. So when saying a photon has higher frequencie, its actually the wave part of the light that has a higher frequency.
Green light has a moderate frequency compared to other colors in the visible light spectrum. It falls between blue and yellow light in terms of frequency.
Green light. If you use the abbreviation ROY G. Biv ( red, orange yellow, green, blue, indigo, violet), you will always know that the red light has the longest wavelength and violet has the smallest wavelength. Wavelength and frequency are inversely proportional to one another. So if the wavelength is large, frequency is small, and when wavelength is small, frequency is large. Green light has a smaller wavelength than yellow. Likewise it has a higher frequency than yellow does. Therefore, green light has a higher frequency than yellow light.
Yes. Blue light has a lower wavelength than yellow light, which is why it is perceived by out eyes as a different color. Blue light's wavelength is around 450 nanometers and yellow light's wavelength is around 575 nanometers. since the speed of light is constant for all light, and frequency is the speed of light over the wavelength of the light, the larger the wavelength, the lower the frequency. And the lower the frequency, the lower the energy. So the shorter wavelength of light (in this case, blue colored light) has a faster frequency, and therefore more energy.