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Chapter 28.1 Electromagnetic Spectrum. Scientists learn about the Universe by collecting Wave- Energy from the Electromagnetic Spectrum.
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Chapter 28.1 Electromagnetic Spectrum
Scientists learn about the Universe by collecting Wave- Energy from the Electromagnetic Spectrum
The Electromagnetic- Spectrum is a continuum depicting the full range of Electromagnetic Radiation, with the longest wavelength at one end, and the shortestat the other.
Electromagnetic Radiation is energy in the form of a Wave, resulting from the motion of electric charges and the magnetic fields that they produce.
Electromagnetic Spectrum Visible Light
Increasing Wavelength Increasing Energy
Objects in space emit energy in several different Frequencies and Wavelengths.
Blue Light Red Light The wavelength of each color of light is different
The Spectroscope and the Visible Spectrum When light passes through a prism and out again, they are refracted, or bent, forming a band called the Visible Spectrum.
Stars emit light that falls within the visible spectrum. Scientists use an instrument called a Spectroscope to separate this starlight into its colors so that it can be studied.
Spectroscopes break light into three different types. • Continuous Spectrum • Emission Spectrum • Absorption Spectrum
Each element gives a unique spectrum. The position of the lines relative to one another changes from element to element and, as it turns out, from molecule to molecule. In essence, the emission spectrum is a fingerprint of the element/molecule that generates it.
Emission Spectrum of Hydrogen By studying these different spectra, and comparing the emission/absorption spectra of stars to those of gaseous elements in a lab, astronomers can determine the types of elements that make up the atmospheres of the stars that emitted the light. Absorption Spectrum of Hydrogen
Scientists use Spectral Analysis to not only determine what gases are present in stars, but also how they are moving relative to the Earth. The Doppler Effect This is possible because of a phenomenon called the Doppler Effect.
Let’s look at some examples of the Doppler Effect that you have all experienced.
Fire Engine moving to the right, and toward Person B Fire Engine at Rest Waves stretched Waves compressed Person B Person A
The Doppler Effect also applies to Light. Bright Line Spectrum
Because of Doppler Shift, scientists have determined that our Universe is expanding
Scientists have even been able to use Doppler Shift to detect the “wobble” of Stars with orbiting massive planets.
Galaxy moving toward -Light shifted toward Blue. Galaxy moving away-Light shifted toward Red.
Stars emit energy in wavelengths that include…1. Visible Light2. Infrared3. Ultraviolet4. X-Rays 5. Gamma Rays.
The Sun “viewed” through different wavelengths H Alpha UV Gamma X-Ray
M82 IR M82 Optical M82 X-Ray M82 Radio
Optical Telescopes • Telescopes gather far more light than the unaided eye can gather. • Telescopes magnify images.
Refracting Telescope Refracting Telescope- Uses two lenses. The Lense, at the front of the tube, gathers light. The Eyepiece magnifies the image collected by the lense. (limited in size by tendency of large lenses to bend)