Textbook Question
Which wave corresponds to higher energy radiation? (LO 5.1) (a)
(b)
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Ch.5 - Periodicity & Electronic Structure of Atoms
Chapter 5, Problem 6
When a copper salt such as Cu(NO3)2 is burned in a flame, a blue-green color is emitted. Which figure represents the emission spectrum for the element copper? (LO 5.6)? (a)
(b)
(c)
(d)
Verified step by step guidance1
Understand that the emission spectrum of an element is a set of wavelengths (or colors) of light emitted by atoms of that element when they return to a lower energy state from an excited state.
Recognize that the color observed in the flame test (blue-green for copper) is due to the emission of light at specific wavelengths as electrons in the copper atoms fall back to lower energy levels.
Identify that the emission spectrum for copper will predominantly show peaks in the regions corresponding to blue and green wavelengths.
Compare the provided options (a, b, c, d) and look for the spectrum that shows significant peaks in the blue-green region of the visible spectrum.
Select the figure that best matches the description of the emission spectrum with peaks in the blue-green wavelengths, as this will represent the emission spectrum of copper.
Verified Solution
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Emission Spectrum
An emission spectrum is a spectrum of the electromagnetic radiation emitted by a source. When an element is heated, its electrons gain energy and can move to higher energy levels. When these electrons return to their original levels, they release energy in the form of light, producing a characteristic spectrum unique to each element.
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Emission Spectra
Copper's Flame Test
Copper salts, such as Cu(NO3)2, produce a distinctive blue-green flame when burned. This color is due to the specific wavelengths of light emitted by excited copper atoms as their electrons transition between energy levels. The flame test is a qualitative analysis technique used to identify the presence of certain metal ions based on the color of the flame.
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Energy Levels and Electron Transitions
Atoms have quantized energy levels, and electrons can occupy these levels. When energy is supplied, electrons can jump to higher levels (excitation). The subsequent return to lower levels results in the emission of photons, which correspond to specific wavelengths of light. The pattern of these transitions is what creates the unique emission spectrum for each element.
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Related Practice
Textbook Question
What is the energy (in kJ) of one mole of photons of ultraviolet light with a wavelength of 85 nm? (LO 5.3)
(a) 1.4 * 10-6 kJ
(b) 1.4 * 103 kJ
(c) 2.4 * 1014 kJ
(d) 2.4 * 10-15 kJ
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Textbook Question
Which type of electromagnetic radiation will cause the greatest number of electrons to be ejected from zinc metal with a work function of 350 kJ/mol? (LO 5.4, 5.5)
(a) Dim light with a wavelength of 320 nm
(b) Dim light with a wavelength of 360 nm
(c) Bright light with a wavelength of 360 nm
(d) Bright light with a wavelength of 375 nm
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Textbook Question
Which arrow in the energy diagram for an atom represents the absorption of light with the shortest wavelength? (LO 5.7)
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Textbook Question
Calculate the wavelength in nm of the light emitted when an electron makes a transition from an orbital in n = 5 to an orbital in n = 2 in the hydrogen atom. (LO 5.8)
(a) 2.31 * 10-3 nm
(b) 4.34 * 10-2 nm
(c) 231 nm
(d) 434 nm
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Textbook Question
What are the possible values of n, l, and ml for an electron in a 5p orbital? (LO 5.12)
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