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highpoint /~ afuller /PHY-1050

http:// www.highpoint.edu /~ afuller /PHY-1050. Pre -Lecture Quiz: MasteringAstronomy Ch15 pre-lecture quiz due February 17 Homework: MasteringAstronomy Ch3 assignment due February 1 MasteringAstronomy Ch4 assignment due February 8 MasteringAstronomy Ch5 assignment due February 15

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highpoint /~ afuller /PHY-1050

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  1. http://www.highpoint.edu/~afuller/PHY-1050 • Pre-Lecture Quiz: • MasteringAstronomy Ch15 pre-lecture quiz due February 17 • Homework: • MasteringAstronomyCh3 assignment due February 1 • MasteringAstronomyCh4 assignment due February 8 • MasteringAstronomyCh5 assignment due February 15 • Midterm 1: [TTh] Feb 12 / [MW] Feb 13 • Covers chapters 1, 3, 4, 5, and Appendix C. • Bring a calculator. I will not have extras. Cell phones are not allowed. • Test will be scantron, so bring a pencil. I will not have extras. • Have Lecture-Tutorials workbook ready to turn in before test.

  2. Light and Matter • How do we experience light? • Light is a form of energy. • Light comes in many colors that combine to form white light. • How do light and matter interact? • Matter can emit light, absorb light, transmit light, and reflect (or scatter) light. • Interactions between light and matter determine the appearance of everything we see.

  3. Reflection and Scattering Mirror reflects light in a particular direction. Movie screen scatters light in all directions.

  4. Interactions of Light With Matter Interactions between light and matter determine the appearance of everything around us.

  5. Why is a rose red? • The rose absorbs red light. • The rose transmits red light. • The rose emits red light. • The rose reflects red light.

  6. Why is a rose red? • The rose absorbs red light. • The rose transmits red light. • The rose emits red light. • The rose reflects red light.

  7. Light and the Electromagnetic Spectrum • What is light? • Light can behave like either a wave or a particle. • A light wave is a vibration of electric and magnetic fields. • Light waves have a wavelength and a frequency. • Photons are particles of light. • What is the electromagnetic spectrum? • Human eyes cannot see most forms of light. • The entire range of wavelengths of light is known as the electromagnetic spectrum.

  8. Waves Longitudinal: particle displacement is parallel to the direction of wave propagation. Sound waves are an example of longitudinal waves. A wave is a pattern of motion that can carry energy without carrying matter along with it. Transverse: Particle displacement is perpendicular to the direction of wave propagation. Waves passing down ropes or slinkies are examples of transverse waves.

  9. Wave Properties • Wavelength is the distance between two wave peaks. • Frequency is the number of times per second that a wave vibrates up and down. • Wave speed = wavelength x frequency

  10. Light: Electromagnetic Waves • A light wave is a vibration of electric and magnetic fields. • Light interacts with charged particles through these electric and magnetic fields. • Particles of light are called photons. • Each photon has a wavelength and a frequency. • The energy of a photon depends on its frequency. wavelength  frequency = speed of light = constant

  11. Wavelength, Frequency, and Energy λf = c λ= wavelength, f = frequency c = 3.00  108 m/s = speed of light E = h f = photon energy h = 6.626  10-34 joule  s = Planck’s Constant

  12. Visible Light Waves http://www.highpoint.edu/~afuller/PHY-1050/textbook/05_VisibleLightWaves.htm

  13. The higher the photon energy… • the longer its wavelength. • the shorter its wavelength. • energy is independent of wavelength.

  14. The higher the photon energy… • the longer its wavelength. • the shorter its wavelength. • energy is independent of wavelength.

  15. Lecture-Tutorial: “Electromagnetic (EM) Spectrum of Light” (page 45)

  16. The Structure of Matter • Matter is made of atoms, which consist of a nucleus of protons and neutrons surrounded by a cloud of electrons.

  17. Atomic Terminology • Atomic number = # of protons in nucleus • Atomic mass number = # of protons + neutrons

  18. Atomic Terminology • Isotope: same # of protons but different # of neutrons (4He, 3He)

  19. Phases of Matter • Familiar phases: • Solid (ice) • Liquid (water) • Gas (water vapor) • (And a couple others…) • Phases of same material behave differently because of differences in chemical bonds. • Adding heat to a substance changes its phase by breaking chemical bonds. • As temperature rises, a substance transforms from a solid to a liquid to a gas, then the molecules can dissociate into atoms. • Stripping of electrons from atoms (ionization) turns the substance into a plasma.

  20. Phase Changes • Ionization: stripping of electrons, changing atoms into plasma • Dissociation: breaking of molecules into atoms • Evaporation: breaking of flexible chemical bonds, changing liquid into solid • Melting: breaking of rigid chemical bonds, changing solid into liquid

  21. Phases and Pressure • Phase of a substance depends on both temperature and pressure. • Often more than one phase is present.

  22. Energy is stored in atoms • The energies of electrons in atoms correspond to particular energy levels. • Electrons in atoms are restricted to particular energy levels. • Atoms gain and lose energy only in amounts corresponding to particular changes in energy levels.

  23. Energy Level Transitions • The only allowed changes in energy are those corresponding to a transition between energy levels. Not Allowed Allowed

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