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1. What does the peak wavelength on a spectral curve tell you about a star? What can astronomers tell from a sepctral curve
2. What two parts does a light wave consist of? Light does not require a ____________. A particle of light is called a _____________. What is meant by “wave-particle duality”? What are the divisions of the EM spectrum. In order. What are three ways the electromagnetic spectrum is arranged and indicate the direction of their magnitude What does c=ƒ mean? What is the relationship of  and ƒ What is the wavelength of a light wave that has a frequency of 595 THz ( 1 THz = 1012 Hz)? In nanometers Show work
3. May 4rd, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Laws tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP:What is the Doppler Effect and how is it used in astronomy Assessment: AGENDA Warm up Finish Doppler Effect Sheet Go over Telescopes and Luminosity
4. May 4th, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 Doppler effect. Quiz next week – on Section 3 (Tuesday). Test on Thursday on Light. NOTES:
5. May 3rd, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Laws tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP:What kind of spectra do you expect to see from a star (any star)? Why Assessment: AGENDA Warm up If you were not here yesterday Quiz on Part 3. U-revise on Quiz 2 Wrap up on Light Unit Test on Monday
6. May 2nd, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 Doppler effect. Quiz next week – on Section 3 (Tuesday). Test on Thursday on Light. NOTES:
7. May 2nd, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Laws tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP:No warm up Assessment: AGENDA No Warm up Quiz on Part 3. U-revise on Quiz 2 Wrap up on Light Unit Test on Monday
8. May 2nd, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 Doppler effect. Quiz next week – on Section 3 (Tuesday). Test on Thursday on Light. NOTES:
9. May 1st, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Laws tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP:From what you know – In what categories are the planets of our solar system divided into. Where are the dividing line(s)? Assessment: What are the three different types of spectrum? How are each created? AGENDA Warm up Discussion: Wien’s Law and Blackbodies Electrons and Light Go over Light math – Did you do it????? Quiz on Part 3 on Wednesday. U-revise on Quiz 2 Test on Monday
10. May 1st, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 Doppler effect. Quiz next week – on Section 3 (Tuesday). Test on Thursday on Light. NOTES:
11. April 30, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Laws tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP:From what you know – what happens to stars after they use up their fuel (nothing more to fuse)? Divide these up to stars that are 1) Smaller than Sun, 2) Same size of Sun, 3) Larger than our Sun (3-6 times) 4) Considerably larger (>6) Assessment: AGENDA Warm up Discussion: Wien’s Law and Blackbodies Electrons and Light Quiz on Part 3 on Wednesday. Test on Monday
12. April 30, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 Doppler effect. Quiz next week – on Section 3 (Tuesday). Test on Thursday on Light. NOTES:
13. April 27, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Laws tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP: In the laser light show, the lasers demonstrated the four ways light interacts with matter. What are those four ways and give examples as shown in the laser show. Assessment: AGENDA Warm up Quiz Discussion: Wien’s Law and Blackbodies Electrons and Light Video Clip on Quantum Jumping
14. April 27, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 Doppler effect. Quiz next week – on Section 3 (Tuesday). Test on Thursday on Light. NOTES:
15. April 26, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Law tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP: None Assessment: AGENDA Collect any outstanding homework (Light Math) Mr. Mann’s Laser Show. 1st period: Quiz tomorrow
16. April 26, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 NOTES:
17. April 25, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Law tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP: What does the peak wavelength on a spectral curve tell you about a star? Assessment: AGENDA Warm up Homework questions? Quiz Lyrids in the Colorado Rockies (no that is not a mountain song contest) Discussion: Wien’s Law and Blackbodies Electrons and Light Video Clip on Quantum Jumping
18. April 24, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 NOTES:
19. April 24th, 2012 ESSENTIAL QUESTION: What do Kirchhoff’s Law tell us about a star’s spectra LEARNING OBJECTIVE: Describe how the three types of spectral lines are formed? WARM UP: What is meant by an “atmospheric window?” Assessment: AGENDA Warm up Homework questions? Quiz tomorrow Lyrids in the Colorado Rockies (no that is not a mountain song contest) Discussion: Wien’s Law and Blackbodies Electrons and Light Video Clip on Quantum Jumping
20. April 24, 2012 FORMATIVE ASSESSMENT: . Teacher led Questions on student’s understanding of today’s lesson. VOCABULARY: Luminosity, apparent brightness, Wien’s Law, Stephen-Boltzmann Law, blackbody, emission spectra, absorption spectra, continuous spectra . PRACTICE: ASSIGNMENTS: EM spectrum #9, Light and Atoms #11 NOTES:
21. Use the following formulas: c = f E = hc/ m= k/T Constants: h = 6.6×10−34J*s k= 2.9 x10 -3 m·K
22. Perihelion Inferior Conjunction Aphelion Opposition Conjunction EARTH Superior Conjunction