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Emission Spectra Lab
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Common Core Connection
Today I will be able to: Apply knowledge of electron configuration to a quiz Explore how the photoelectric effect creates atoms with unique atomic spectra Identify the anatomy of electromagnetic waves Informal assessment – monitoring student interactions and questions as they complete the lab Formal assessment – analyzing student responses to the lab and exit ticket Common Core Connection Build Strong Content Knowledge Reason abstractly and quantitatively Use appropriate tools strategically
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Lesson Sequence Evaluate: Warm-Up
Evaluate: Electron Configuration Quiz Explain: Emission Spectra Notes Engage/Explore: Emission Spectra Lab Elaborate: Star Spectra WS Evaluate: Exit Ticket
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Warm-Up Write the abbreviated electron configurations for the following: Au Br- What is wrong with this abbreviated configuration for Cl? [He]2s22p63s23p5
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Objective Today I will be able to:
Explore how the photoelectric effect creates atoms with unique atomic spectra Identify the anatomy of electromagnetic waves Explain the quantum model and photoelectric effect. [GT] a. Describe the process that creates atomic spectra. b. Explain the uniqueness of atomic spectra. c. Provide examples of the common applications of atomic spectra, i.e. analysis of a mixture using atomic spectra. d. Describe the relative energies of ultraviolet, visible, infrared, microwave, X-ray, radio, and TV waves. [GT] e. Distinguish between absorption (excitation) and emission of energy. [GT] f. Describe the properties of light. (i.e. wavelength, frequency and energy) g. Calculate the wavelength, frequency and energy for a given electron transition. [GT]
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Homework Finish Star Spectra Worksheet
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Agenda Warm – Up Electron Configuration Quiz Emission Specta Notes
Emission Spectra Lab Exit Ticket
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Investigative Question
What wavelengths are associated with vapor lamps of various elements? Investigative Question
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Emission Spectra
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According to the Quantum Model…
Electrons can be move as waves When electrons release energy, release in the form of light photons
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Spectroscopy Study of the emission and absorption of light by atoms and molecules
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Anatomy of a wave
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Electromagnetic Spectrum
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Electromagnetic Spectrum
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Anatomy of a wave Wavelength (λ - lambda) – distance between crests in a wave Frequency (v - nu) – number of complete waves passing a point in a given amount of time Amplitude - distance from wave origin to peak or crest
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Bohr Model of Atom Electrons are found on specific energy levels
When electrons absorb energy, they more to a higher energy level When electrons emit energy, they move to a lower energy level and release light energy
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Absorption and Emission of Electrons
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Emitted Light Color is seen if the electron falls back to energy level (n) 2 This is visible light The amount an e- fall determines the frequency of EM radiation released (n = 1 = UV; n = 3 infrared)
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Emitted Light No two elements give off the same spectra of colors, because they vary in the number of protons and electrons Emit their own unique line spectra Can be used to identify elements
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Line Spectra Emission Spectra of Hydrogen
1 nm = 1 x 10-9 m = “a billionth of a meter”
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Continuous vs. Line spectra
All wavelengths of visible light are seen Line (Emission) Spectra Only specific bands of color are seen 1 nm = 1 x 10-9 m
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Rotate from Station to Station to observe line spectrum of different elements and complete the lab.
Emission Spectrum Lab
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Exit Ticket - Star Spectra WS
Complete the worksheet when you finish your lab. Exit Ticket - Star Spectra WS
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