Blackbody Radiation And Spectra
Light is a form of _______. Why is this important? With very few exceptions, the only way we have to study objects in Astronomy is via the light (energy) they emit. energy
The Earth’s atmosphere is __________ to __________, some ________, and the ____. It is opaque to ___, ______, and ______ rays. X-raysUV gamma radio visible light transparent infrared
Blackbody Radiation Ex. Heat an iron rod with a torch. –1 st visible color – “____ Hot” –2 nd visible color – Bright _______ –3 rd visible color – Bright ________ –4 th visible color – Bright ______ –5 th visible color – Bright _____ As you heat an object it gets _______ and ______ more ______________ _________. radiation emitselectromagnetic brighter Blue White Yellow Red Orange
Blackbody Radiation The dominant color or wavelength of the emitted radiation changes with temperature. –_______ objects emit at _______ wavelengths - Red, Infrared –______ objects emit at _______ wavelengths - Blue, Violet, UV Object actually gives off ____ ___________ of electromagnetic spectrum. wavelengths all shorterHotter Coolerlonger
Blackbody Radiation A blackbody ________ all the electromagnetic radiation that strikes it (none is reflected or scattered). Object is heated and then _______ the energy it absorbed at _______ __________ of the EM spectrum. absorbs wavelengths different reemits
Blackbody Curves A body with any temperature radiates _____________, sometimes called blackbody radiation. For a given size, ______ objects give off __________ than cooler objects, and are _____. thermal energy more energy hotter bluer
Blackbody Curves For a given temperature, larger bodies give off more energy than smaller bodies, in direct proportion to their surface areas.
Visible light Most people can perceive ______. Different colors correspond to different frequencies (or wavelengths). The colors of the rainbow are ROY G BIV: red orange yellow green blue indigo violet. color
Visible light In the visible, ____ has the longest __________, the smallest __________, and the lowest _______. _____ has the shortest _________, the highest __________, and the highest ______. red wavelength frequency energy violetwavelength frequency energy
The spectrum A graph of the intensity of light vs. the color (e.g. the wavelength, frequency, or energy) is called a ________. A spectrum is probably the single most useful diagnostic tool available in Astronomy. spectrum
Important points The spectrum of a star is approximately a black body spectrum. ______ stars are bluer, _____ stars are redder. For a given temperature, ______ stars give off __________ than smaller stars. ______ the wavelength, the _______ the temperature Hottercooler larger more energy Shortergreater
In the constellation of Orion, the reddish star Betelgeuse is a relatively cool star. The blue star Rigel is relatively hot.
The spectrum A spectrum can tell us about the temperature and composition of an astronomical object. There are _____ major types of spectra of concern here: _________________ - the intensity varies smoothly from one wavelength to the next. _____________ - there are discrete jumps in the intensity from one wavelength to the next. two Continuous spectra Line spectra (2)
The Line Spectrum Upon closer examination, the spectra of real stars show fine detail. Dark regions where there is relatively little light are called lines.
The Line Spectrum Today, we rarely photograph spectra, but rather plot the intensity vs the wavelength.
Emission and Absorption If you view a gas against a dark background, you see _____________ (wavelengths at which there is an abrupt spike in the brightness). emission lines
Emission and Absorption If you view a continuous spectrum through cool gas, you see __________ ______ (wavelengths where there is little light). lines absorption
Why is this important? The line spectrum tells about what elements are present in the star. Why is this?
How Light Interacts with Matter. Atoms are the basic blocks of matter. They consist of protons and neutrons in the nucleus, surrounded by lighter particles called electrons.
How Light Interacts with MatterHow Light Interacts with Matter. An ________ will interact with a photon. An electron that _______ a photon will _____ energy. An electron that ______ energy must ______ a photon – giving off light. The ____________ (electron plus photon) ______________ during this process. electron absorbs gain loses emit total energy remains constant
Atomic Fingerprints Hydrogen has a specific line spectrum. Each atom has its own specific line spectrum.
Atomic Fingerprints These stars have absorption lines with the wavelengths corresponding to hydrogen!
Atomic Fingerprints. This cloud of gas looks red since its spectrum is a line spectrum from hydrogen gas.
The Doppler Shift: Measuring MotionDoppler Shift If a source of waves is ____ _______, then the waves are _______ _______ in all directions. not moving equally spaced
The Doppler Shift: Measuring Motion If a source of waves ___ _______, then the spacing of the wave crests ________ on the direction relative to the direction of motion. is moving depends
The Doppler Shift: Measuring Motion Think of sound waves from a fast- moving car, train, plane, etc. The sound has a ___________ (higher frequency) when the car __________. The pitch is _____ (lower frequency) as the car ______ and moves further away. Higher pitch approaches lower passes
The Doppler Shift: Measuring Motion If a source of light is _______ _____, the wavelengths are increased, or “__________”. redshifted moving away
The Doppler Shift: Measuring Motion If a source of light is _______ _______, the wavelengths are shortened, or “__________”. blueshifted moving closer
The Doppler Shift: Measuring MotionDoppler Shift The size of the wavelength shift depends on the relative velocity of the source and the observer.
Using a Spectrum, we can… Measure a ________________ by measuring the overall shape of the spectrum (essentially its color). Measure what _______________ are in a star’s atmosphere by measuring the lines. Measure the ______________ of a star by measuring the Doppler shifts of the lines. relative velocity star’s temperature chemical elements