1 / 33

Light and Temperature

Light and Temperature. Astronomy: The Science of Seeing. Mastering Astronomy. Go to MasteringAstronomy.com Register using: Access Code: WSSBCW-SNELL-POIND-SPINA-GIGOT-FLEES ClassID : NORDGREN2014 We will start using for reading and homework due next Monday. Goals. What is light?

ira
Download Presentation

Light and Temperature

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Light and Temperature Astronomy: The Science of Seeing

  2. Mastering Astronomy • Go to MasteringAstronomy.com • Register using: • Access Code: • WSSBCW-SNELL-POIND-SPINA-GIGOT-FLEES • ClassID: NORDGREN2014 • We will start using for reading and homework due next Monday.

  3. Goals • What is light? • What are the types of light? • Where does the light we see come from? • Understanding the light of heat. • On a sunny day why is it hot in my car?

  4. "[Of celestial bodies] We may determine their forms, their distances, their sizes, and their motions - but we can never know anything of their chemical composition; and much less, that of organized beings living on their surface.“ Philosopher Auguste Comte, 1835 Open Cluster NGC 290: A Stellar Jewel Box Credit: ESA & NASA; Acknowledgement: E. Olszewski (U. Arizona)

  5. What you see is all you get! • So you need to squeeze EVERY last drop of information out of the light we get. • This semester we’ll see how we can use light to: • Take a star’s temperature. • Weigh a black hole. • Tell what our Galaxy looks like from the outside. • See the beginning of the Universe.

  6. The “Visible” Spectrum • When you think of “light”, what do you think of?

  7. Light • Travels at the speed of light (a CONSTANT): c = 3 x 1010 cm/s • The wavelength (l) and frequency (n) are related: c = ln • The energy of light is: E = hn = hc/l

  8. E = hc/l

  9. Concept Question • Which of the following is true? • Red light has more energy than blue light. • Radio waves travel slower than visible light waves. • Gamma waves have less energy than Radio waves. • Blue light has a lower frequency than red light. • Ultraviolet has smaller wavelengths than infrared.

  10. Emission lines Absorption lines Continuum A Spectrum • A spectrum = the amount of light given off by an object at a range of wavelengths.

  11. Three Reasons All objects do one or more: • Reflect light because of color or smoothness • Emit light because of their temperature (thermal radiation) • Emit or absorb light because of their composition (spectral lines) A person, house, or the Moon: reflects visible light, and because each is warm, emits infrared light.

  12. Reflecting Light

  13. Temperature and Light • Warm objects emit light. • Thermal radiation

  14. Kelvin Temperature • Kelvin: an absolute scale. • Kelvin is Celsius + 273 degrees. • Water freezes: 0 C  273 K • Water Boils: 100 C  373 K • Room Temp: 80 F  27 C  300 K • Surface Sun: 5800 K

  15. Thermal Radiation Laws • Hotter is bluer. • (peak at shorter wavelength) • Hotter is brighter. • (More intense at all wavelengths)

  16. visible range Star A Energy Output per second Star B V I B G Y O R Wavelength Concept Test Which of the two stars (A or B) is at a higher temperature? • Star A • Star B • The two stars have the same temperature. • It is not possible to infer this relationship.

  17. visible range Star A Energy Output per second Star B V I B G Y O R Wavelength Concept Test Which of the following best describes how Star A would appear compared to Star B? • Star A would appear more red than Star B. • Both stars would appear more red than blue. • Both stars would appear more blue than red. • Star A would appear more blue than Star B. • None of the above.

  18. visible range Star A Energy Output per second Star B V I B G Y O R Wavelength Concept Test Which of the following best describes the light from Star A compared to Star B? • More ultraviolet light but less visible light. • More infrared light but less visible light. • More visible light but less infrared light. • Less infrared light and less ultraviolet light. • More ultraviolet light and more visible light.

  19. Concept Test • Imagine the Sun’s surface suddenly became much cooler (while the Sun’s size remains the same). Compared to the light it now emits, the Sun would emit: • More ultraviolet light but less visible light. • More infrared light but less visible light. • More visible light but less infrared light. • Less infrared light and less ultraviolet light. • More ultraviolet light and more visible light.

  20. Atoms in Motion • Everything is composed of atoms which are constantly in motion.

  21. Temperature • The hotter the object, the faster the average motion of the atoms. COOLER HOTTER

  22. Atoms and Light • As atoms move they collide (interact, accelerate). • Collisions give off energy. • But light IS energy. E = hc/l

  23. Light and Temperature • The hotter the object the faster the average atom and the more energetic the average collision. • The faster the atoms the more collisions there are. HOT COLD

  24. Energy and Intensity • The more energetic the average collision the bluer the average light that is given off. • Since E = hc/l • The more collisions that occur the more light that is given off per surface area. • 1. Hotter is bluer. • (peak at shorter wavelength) • 2. Hotter is brighter. • (more intense at all wavelengths)

  25. Graphically

  26. Thermal versus Reflection • Thermal radiation is light given off because of an object’s temperature. • Don’t confuse with reflected light: • Buses are yellow not because they are hot enough to emit visible radiation but rather they reflect the yellow light given off by the Sun. • What kinds of thermal radiation do we see in our everyday life?

  27. The IR World • Everyday objects (at everyday temperatures) emit thermal radiation in the IR, this is why we equate IR with HEAT. http://www.x20.org/library/thermal/blackbody.htm

  28. Orion - visible Orion – by IRAS Betelgeuse The IR Universe • Everyday things that are hot radiate in the IR: • Dust – There are interstellar clouds of dust. Orion Nebula

  29. The IR Universe Io from IRTF. • Molten Rock – There are lava flows on a moon of Jupiter. Orion – by IRAS

  30. The Moon in eclipse. R. Gendler The IR Universe • In eclipse, there is no reflected light. • Only thermal radiation. • Differences in composition lead to differences in temperature. Orion – by IRAS

  31. The Greenhouse Effect • Why is my car hot on a summer day? • At T = 6000 K, the Sun radiates mostly visible light. Windshield is transparent to visible light. • Car seat absorbs this visible light and warms up to 400 K. • At T = 400 K, my seat radiates mostly at longer wavelengths in the IR. Windshield is opaque in the IR. • Result: Energy is TRAPPED inside the car!

  32. Homework #3 • For Wednesday 22-Jan: • Read Cosmic Perspectives Chapter 5 • Do end of Chapter Questions: 18, 22, 27, 34, 37

More Related