Problem 75
Question
Light is given off by a sodium- or mercury-containing streetlight when the atoms are excited. The light you see arises for which of the following reasons? (a) Electrons are moving from a given energy level to one of higher energy. (b) Electrons are being removed from the atom, thereby creating a metal cation. (c) Electrons are moving from a given energy level to one of lower energy.
Step-by-Step Solution
Verified Answer
(c) Electrons moving from a higher energy level to a lower energy level release light.
1Step 1: Understanding the Options
The problem gives us three options regarding the movement of electrons in an atom, which results in the emission of light. We need to determine which option correctly describes the emission process.
2Step 2: Analyzing Option (a)
Option (a) suggests that light is emitted when electrons move from a lower to a higher energy level. However, this requires energy absorption rather than emission. Therefore, option (a) is incorrect for emission of light.
3Step 3: Analyzing Option (b)
Option (b) proposes that electrons are removed, forming a metal cation. This process might lead to ionization but doesn't specifically describe the emission of light.
4Step 4: Analyzing Option (c)
Option (c) states that light is emitted as electrons move from a higher energy level to a lower energy level. This process releases energy in the form of light or photons. This is how emission of light typically occurs.
5Step 5: Conclusion
After analyzing all the options, it is clear that option (c) correctly describes the emission of light due to electrons transitioning from higher to lower energy levels.
Key Concepts
Photon EmissionEnergy LevelsLight Emission
Photon Emission
When atoms absorb energy, their electrons can jump up to a higher energy level. However, these high-energy states are not stable. To return to stability, the electrons drop back down to their original or lower energy levels. During this transition, the electrons release the absorbed energy in the form of photons. Simply put, photon emission occurs when electrons transition down between energy levels, losing energy as light. This process is foundational to understanding how lights work in devices like sodium and mercury streetlights. As electrons move between defined energy states, they emit photons that we perceive as light.
Energy Levels
Atoms possess distinct energy levels and electrons inhabit these levels. They can be thought of as steps in a staircase. Each energy level has a particular amount of energy. To move an electron to a higher level, energy must be absorbed. When energy is absorbed, electrons can jump from one step to another higher up the staircase.
- Higher energy levels are unstable, meaning electrons do not remain there indefinitely.
- As electrons drop back down to lower energy levels, energy that was previously absorbed is released.
- This released energy can be observed as light.
Light Emission
Light emission is a natural and fascinating process happening during electron transitions. When electrons fall from a higher energy level to a lower one, they release energy as light, or photons.
- The color of the emitted light depends on the amount of energy released.
- Different elements emit different colors because their energy level gaps are different.
- For example, sodium can produce a bright yellow light due to its specific electron transitions.
Other exercises in this chapter
Problem 72
The spectrum shown here is for aspirin. The vertical axis is the amount of light absorbed, and the horizontal axis is the wavelength of incident light (in \(\ma
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Bohr pictured the electrons of the atom as being located in definite orbits about the nucleus, just as the planets orbit the sun. Criticize this model.
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How do we interpret the physical meaning of the square of the wave function? What are the units of \(4 \pi r^{2} \psi^{2} ?\)
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What does "wave-particle duality" mean? What are its implications in our modern view of atomic structure?
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