What will be the energy associated with a red photon, if the wavelength of the red light is 650 nm? [Hint: Find the frequency of red light first to calculate the energy. Recall: c = 2f] A. 650×10° J B. 6.5×10 J C. 4.6x1014 J D. 3.0x10-19 J E. 3.0x1019 J
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![What will be the energy associated with a red photon, if the
wavelength of the red light is 650 nm? [Hint: Find the frequency
of red light first to calculate the energy. Recall: c = .f]
A. 650x10° J
B. 6.5x10 J
C. 4.6x1014 J
D. 3.0x10-19 J
E. 3.0x1019 J](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4aaf277d-b912-47b0-8ce1-61732a7ed21e%2F216e253d-4fa5-4c4d-948e-2b916d58c19d%2Fkg0e36m_processed.png&w=3840&q=75)
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- A photon of light has a frequency of 5.00 x 1014 Hz. If the frequency of the photon was doubled then which of these would happen to the energy of this photon? a. it would double b. it would triple c. it would quadruple d. it would become one-fourth as much e. it would become half as muchFind the energy (in eV) of a photon with a frequency of 6.7 ✕ 1016 Hz.At the surface of the sun, the temperature is approximately 5800 K. A. How much energy is contained in the electromagnetic radiation filling ten cubic meter of space at the sun's surface? B. Make a qualitative sketch of the radiation spectrum at the temperatures of 3000 K and 3800 K as a function of photon energy (eV). Indicate the peak position of these electromagnetic radiations in relation with the solar radiation spectrum.
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- What is the energy of a photon with a wavelength of 19.3 µm? 3.43x10-29 J 1.55×1013 J 1.03×10-20 J 1.28x10-38 JA photon of light has a frequency of 5.00 x 1014 Hz. If the frequency of the photon was doubled then which of these would happen to the energy of this photon? a. it would become one-fourth as much b. it would become half as much c. it would double d. it would quadruple e. it would triple