Part A When an object like a piece of graphite is heated to 1000 K, it glows red. When the temperature is increased to around 3000 K, the color of emitted light becomes orange. What is the reason for this change in color? O The average wavelength of the photons emitted increases with increasing temperature. O The average energy of the photons emitted increases as the temperature increases. O The speed of the photons (quantized packets of radiant energy) increases within creasing temperature.
Part A When an object like a piece of graphite is heated to 1000 K, it glows red. When the temperature is increased to around 3000 K, the color of emitted light becomes orange. What is the reason for this change in color? O The average wavelength of the photons emitted increases with increasing temperature. O The average energy of the photons emitted increases as the temperature increases. O The speed of the photons (quantized packets of radiant energy) increases within creasing temperature.
Chemistry: The Molecular Science
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Author:John W. Moore, Conrad L. Stanitski
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Chapter5: Electron Configurations And The Periodic Table
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Problem 14QRT: The colors of the visible spectrum and the wavelengths corresponding to the colors are given in...
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Transcribed Image Text:▾ Part A
When an object like a piece of graphite is heated to 1000 K, it glows red. When the temperature is increased to around 3000 K, the color of emitted
light becomes orange. What is the reason for this change in color?
O The average wavelength of the photons emitted increases with increasing temperature.
O The average energy of the photons emitted increases as the temperature increases.
O The speed of the photons (quantized packets of radiant energy) increases within creasing temperature.
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Transcribed Image Text:Which of the following statements are true?
Check all that apply.
A hydrogen atom in the n
3 state can emit light at only two specific wavelengths.
A hydrogen atom in the n = 4 state is at a lower energy than one in the n— 3 state.
=
The energy of an emitted photon equals the energy difference of the two states involved in the emission.
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