The Big Bang Theory
... • Spectral lines: Each element produces its own bar code when it emits visible light (dark lines in the spectrum). • Hubble studied the light of stars and determined which elements they contain by analyzing their spectral lines. ...
... • Spectral lines: Each element produces its own bar code when it emits visible light (dark lines in the spectrum). • Hubble studied the light of stars and determined which elements they contain by analyzing their spectral lines. ...
Document
... An increase (or decrease) in the frequency of sound, light, or other waves as the source and observer move toward (or away from) each other. The effect causes the sudden change in pitch noticeable in a passing siren, as well as the redshift seen by astronomers ...
... An increase (or decrease) in the frequency of sound, light, or other waves as the source and observer move toward (or away from) each other. The effect causes the sudden change in pitch noticeable in a passing siren, as well as the redshift seen by astronomers ...
Study Notes for Chapter 30: Stars, Galaxies, and the Universe
... Directions: Use the following to complete your notes to prepare for your test. ...
... Directions: Use the following to complete your notes to prepare for your test. ...
Study Notes for Chapter 30:
... Hubble’s discovery that there was ____ shift in the spectra of galaxies lead to an understanding that the universe is ____. ...
... Hubble’s discovery that there was ____ shift in the spectra of galaxies lead to an understanding that the universe is ____. ...
Our Place in the Universe: Sizing up the Heavens
... •Position and apparent changes in position through time (I.E., motion) mass (from orbital motions), distance. •Brightness and apparent variations through time size, temperature, distance. •Color (spectrum) and apparent variations through time composition, temperature, direction of motion and v ...
... •Position and apparent changes in position through time (I.E., motion) mass (from orbital motions), distance. •Brightness and apparent variations through time size, temperature, distance. •Color (spectrum) and apparent variations through time composition, temperature, direction of motion and v ...
Universe, Earth, and The Solar System Characteristics of Stars
... Characteristics to classify stars include color, temperature, size, composition, and brightness. The brightness of a star depends upon both its size and temperature. Scientists use light years to measure distances between stars. ...
... Characteristics to classify stars include color, temperature, size, composition, and brightness. The brightness of a star depends upon both its size and temperature. Scientists use light years to measure distances between stars. ...
Spectroscopy - Mr. Borchik
... Definitions • Spectroscopy- the study of the light from an object. • Spectrometer- an instrument which spreads out light making a spectra. • Spectra- range of electromagnetic energy separated by wavelength. ...
... Definitions • Spectroscopy- the study of the light from an object. • Spectrometer- an instrument which spreads out light making a spectra. • Spectra- range of electromagnetic energy separated by wavelength. ...
22. AQA P1 Doppler Effect and Red Shift Answers
... Lines for the two galaxies shift or have shifted towards red end of spectrum (compared to the sun). [1] Don’t talk in terms of red light and if you say red shift, you must Wavelengths seem to increase. [1] explain what that means. Galaxies are moving away from the Earth. [1] Far away galaxy is movin ...
... Lines for the two galaxies shift or have shifted towards red end of spectrum (compared to the sun). [1] Don’t talk in terms of red light and if you say red shift, you must Wavelengths seem to increase. [1] explain what that means. Galaxies are moving away from the Earth. [1] Far away galaxy is movin ...
Spectroscopy PPT
... Dark-line spectrum – a continuous spectrum with dark lines where light has been absorbed. (absorption spectrum) Helium absorption spectrum ...
... Dark-line spectrum – a continuous spectrum with dark lines where light has been absorbed. (absorption spectrum) Helium absorption spectrum ...
Spectroscopy - Jefferson Lab
... • The following powerpoint presentation was designed to fulfill the requirements of the TAPS program at Jefferson Labs in Newport News, VA summer 2006. • This presentation was also designed to accompany and expound upon the topic of Light and the Electromagnetic Spectrum as required by the state of ...
... • The following powerpoint presentation was designed to fulfill the requirements of the TAPS program at Jefferson Labs in Newport News, VA summer 2006. • This presentation was also designed to accompany and expound upon the topic of Light and the Electromagnetic Spectrum as required by the state of ...
tire
... spectrum (Red Orange Yellow Green Blue Indigo Violet) 16. The first person who systematically studied how white light can be broken up into its colors using a prism. 17. A spectrum of light over a range of wavelengths without any spectral lines. 18. An optical device consisting of closely spaced lin ...
... spectrum (Red Orange Yellow Green Blue Indigo Violet) 16. The first person who systematically studied how white light can be broken up into its colors using a prism. 17. A spectrum of light over a range of wavelengths without any spectral lines. 18. An optical device consisting of closely spaced lin ...
WIRO: Spectral Analysis P1
... curve. Photons from star core heat up gas in star’s atmosphere. Electrons in the gas increase energy levels, but eventually decrease energy levels, which in essence changes the direction of the photons from the core. So what we are able to “view” is absorption of photon energy, whereas in reality th ...
... curve. Photons from star core heat up gas in star’s atmosphere. Electrons in the gas increase energy levels, but eventually decrease energy levels, which in essence changes the direction of the photons from the core. So what we are able to “view” is absorption of photon energy, whereas in reality th ...
Spectroscopy PPT
... Most of what is known about stars comes from spectroscopy (or the study of spectra). Spectra (rainbows of diffracted light) can come from a (hot) glowing solid, a glowing liquid or a glowing gas (star). ...
... Most of what is known about stars comes from spectroscopy (or the study of spectra). Spectra (rainbows of diffracted light) can come from a (hot) glowing solid, a glowing liquid or a glowing gas (star). ...
8.8A describe components of the universe, including stars, nebulae
... 8.8C explore how different wavelengths of the electromagnetic spectrum such as light and radio waves are used to gain information about distances and properties of the universe. ...
... 8.8C explore how different wavelengths of the electromagnetic spectrum such as light and radio waves are used to gain information about distances and properties of the universe. ...
Triangulation and Spectroscopy In-class Assignment
... Visible light is a spectrum of colors, which is clear to anyone who has looked at a rainbow. When an object moves away from us, the light is shifted to the red end of the spectrum, as its wavelengths get longer. If an object moves closer, the light moves to the blue end of the spectrum, as its wavel ...
... Visible light is a spectrum of colors, which is clear to anyone who has looked at a rainbow. When an object moves away from us, the light is shifted to the red end of the spectrum, as its wavelengths get longer. If an object moves closer, the light moves to the blue end of the spectrum, as its wavel ...
Examples - University of Waterloo
... A photon with wavelength less than this can ionize H no matter what level the electron is initially in. ...
... A photon with wavelength less than this can ionize H no matter what level the electron is initially in. ...
Astronomical spectroscopy
Astronomical spectroscopy is the study of astronomy using the techniques of spectroscopy to measure the spectrum of electromagnetic radiation, including visible light, which radiates from stars and other hot celestial objects. Spectroscopy can be used to derive many properties of distant stars and galaxies, such as their chemical composition, temperature, density, mass, distance, luminosity, and relative motion using Doppler shift measurements.