Radiation/Electromagnetics/Quiz

Electromagnetic radiation is a stand-alone lecture. It overlaps areas such as radiation astronomy, radiation chemistry, radiation biology, and radiation physics. There are aspects included in the various health sciences and medicine. It is included in the department of radiation astronomy course on the principles of radiation astronomy.

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<quiz>

{Which of the following is not a characteristic of the X-ray continuum? |type="()"} + Bragg peaks - may arise from an X-ray jet - may arise from the coronal cloud of an accretion disc - a power-law spectrum - a thermal emission at the lowest energies

{Tarapacaite is a natural mineral pigment composed of what likely source of yellow? |type="{}"} { chromate|potassium chromate (i) }

{True or False, Super soft X-ray sources are in most cases only detected below 0.5 keV. |type="()"} + TRUE - FALSE

{Ashen light is involved in which of the following? |type="[]"} + earthshine - glow of the bright part of the lunar disk + light from different parts of Earth are mixed together + mimics the Earth as a single dot - neutron astronomy - X-ray astronomy

{True or False, As gamma rays are defined to be radiation emitted from radionuclides, there are no radionuclides that emit X-rays. |type="()"} - TRUE + FALSE

{On what date was GRB 970228 discovered? |type="()"} - August 22, 1997 + February 28, 1997 - September 7, 2002.28 - 1982 the 20th between July and September - 2009 July 22nd and 8 hours - February 14, 2014

{True or False, Submillimeter radiation ranges from 100 µm to 1 mm. |type="()"} + TRUE - FALSE

{Imaging brown dwarfs involves which of the following: |type="[]"} + far-infrared (submillimeter) observations at 350 microns - neutrino detection + heating of the nearby gas and dust + near-infrared covering 1.3 and 2.2 microns + infrared covering 4.5 and 8.0 microns

{Red ochre is a natural pigment composed of what likely source of red? |type="{}"} { hematite|iron|iron oxide|Fe2O3|Fe₂O₃ (i) }

{Which of the following are or likely to be relatively common red minerals? |type="[]"} + crocoite + rhodolite + cinnabar + hematite + eudialyte

{Yes or No, Clouds are a form of radiation because they have a temperature gradient. |type="()"} - Yes + No

{Complete the text: |type="{}"} An aerometeor is a { discrete (i) } unit of air traveling or { falling (i) } through an atmosphere.

{Which of the following is associated with red radiation? |type="()"} - 900 nm - 300 THz - longer wavelengths than those of visible light + 620 - 750 nm - 1 mm

{True or False, Hydrogen has an emission line in the yellow. |type="()"} - TRUE + FALSE

{Complete the text: |type="{}"} Terahertz radiation refers to electromagnetic waves propagating at { frequencies (i) } in the { terahertz (i) } range.

{Light at the extreme red end of the visible spectrum, between red and infra-red light is called |type="{}"} { far-red (i) } light.

{Yes or No, Some cosmic-ray observatories also look for high energy gamma rays and X-rays. |type="()"} + Yes - No

{Which of the following is not characteristic of a neutrino? |type="()"} - neutrinos are affected by the weak nuclear force + produced by a positron annihilating an electron - a decay product of a neutron - produced by the near surface fusion on the Sun - may have a mass - comes in mutable varieties

{True or False, Boron has an emission line in the yellow. |type="()"} - TRUE + FALSE

{Complete the text: |type="{}"} { X|X-ray (i) } and { gamma|gamma-ray (i) } radiation are best absorbed by atoms with heavy nuclei.

{True or False, The distribution of gamma-ray bursts is tetratropic. |type="()"} - TRUE + FALSE

{Beta rays, or beta particles, are more penetrating than what other Greek letter designated rays or particles? |type="{}"} { Alpha|alpha rays, alpha particles (i) }

{True or False, Radiation is an action or process of throwing or sending out a traveling ray in a line, beam, or stream of small cross section. |type="()"} + TRUE - FALSE

{Complete the text: |type="{}"} A filter of type F588N allows the transmission of { yellow (i) } rays.

{True or False, Bremsstrahlung radiation may be a source of the yellow continuum. |type="()"} + TRUE - FALSE

{Which of the following are cold dark matter gamma rays? |type="[]"} + expected signal comparable to background + annihilation radiation - a pronounced cosmic-ray halo + difficult to separate from a dark halo + dwarf spheroidals - weakly interacting massless particles

{True or False, Microwave radiation ranges from 1 micron to 1 mm. |type="()"} - TRUE + FALSE

{Submillimeter radiances can be matched by models which include ice particles of? |type="{}"} { ammonia|NH₃|NH3 (i) }

{Complete the text: |type="{}"} Beta particles are high-energy, high-speed { electrons (i) } or positrons emitted by certain types of { radioactive (i) } nuclei such as { potassium|K (i) }-40.

{Using HIFI instrument aboard the Herschel Space Observatory, the first detection of what ion occurred on March 1 and March 23, 2010? |type="{}"} { chloronium|H2Cl+|H₂Cl⁺|H₂Cl¹⁺ (i) }

{True or False, The Mauna Kea Observatories are used for scientific research across the electromagnetic spectrum from visible light to radio, and comprise the largest such facility in the world. |type="()"} + TRUE - FALSE

{Complete the text: |type="{}"} Match up the radiation letter with each of the detector possibilities below: Optical rays - L Visual rays - M Violet rays - N Blue rays - O Cyan rays - P Green rays - Q Yellow rays - R Orange rays - S Red rays - T multialkali (Na-K-Sb-Cs) photocathode materials { L (i) }. F547M { Q (i) }. F675W { T (i) }. broad-band filter centered at 404 nm { N (i) }. F588N { R (i) }. thallium bromide (TlBr) crystals { O (i) }. F606W { S (i) }. 18 micrometers FWHM at 490 nm { P (i) }. wide-gap II-VI semiconductor ZnO doped with Co²⁺ (Zn_1-xCo_xO) { M (i) }.

{True or False, A delta ray is a ray of very fast positrons. |type="()"} - TRUE + FALSE

{Which types of radiation astronomy directly observe the rocky-object surface of Venus? |type="[]"} - meteor astronomy - cosmic-ray astronomy - neutron astronomy - proton astronomy - beta-ray astronomy - neutrino astronomy - gamma-ray astronomy - X-ray astronomy - ultraviolet astronomy - visual astronomy - infrared astronomy - submillimeter astronomy + radio astronomy + radar astronomy + microwave astronomy - superluminal astronomy

{True or False, Microwave radiation ranges from 1 m to 1 mm. |type="()"} + TRUE - FALSE

{Which of the following are X-ray astronomy phenomena that may be associated with the Earth? |type="[]"} + lightning - Van Allen radiation belts + electrons striking the ionosphere + the geocorona - ice cores - meteorites - diffuse X-ray background - hurricanes

{A method used to count the number of X-rays of a specific wavelength diffracted by a crystal? |type="{}"} { wavelength dispersive X-ray spectroscopy|WDS (i) }

{The reason in principle that your automobile is not detecting submillimeter rays is |type="()"} - it is sitting on top of the Earth's crust below a thick atmosphere - it is low on fuel + those components that may respond to submillimeter rays are not hooked up to needed counting electronics - the top is not down - the Moon is visible - the Sun is behind the clouds

{Which of the following is not a characteristic of X-radiation? |type="()"} - throwing a beam - a stream of charged or neutral rays + calculating the energy of a beam - sending out a traveling ray - a secondary-object hazard

{Complete the text: |type="{}"} A three-color (850, 650, and 350 GHz) single-pixel { bolometer (i) } system has been installed on the { Atacama (i) } Submillimeter Telescope (ASTE) and several massive star forming regions were mapped to derive submillimeter SEDs of these sources.

{True or False, On the whole the emission strength is low in the submillimeter for astronomical objects. |type="()"} + TRUE - FALSE

{Complete the text: |type="{}"} The submillimeter emission from a cometary { nucleus (i) } can be estimated under the assumption of thermal { equilibrium (i) }.

{Yes or No, X-rays span approximately three decades in wavelength, frequency, and energy. |type="()"} + Yes - No

{The number and energy of the X-rays emitted from a specimen can be measured by an? |type="{}"} { energy-dispersive spectrometer|EDS|energy-dispersive X-ray spectrometer (i) }

{True or False, An aurora seen from Australia may be a blue radiation source. |type="()"} + TRUE - FALSE

{High-energy particle acceleration during an energetic solar flare may involve which of the following at submillimeter wavelengths: |type="[]"} - a rapid rise in temperature + a gradual, long-lasting component + large apparent source sizes + synchrotron emission + a magnetic field strength of ≥ 200 Gauss + a close correlation in time and space of radio emission with pion production

{True or False, The planet Saturn exhibits a pale yellow hue due to ammonia crystals in its upper atmosphere. |type="()"} + TRUE - FALSE

{Which of the following emission/absorption phenomena are associated with radiation astronomy? |type="[]"} + helium lines at 501 and 505 nm + the strong C₂ (1,2) band + nitrogen emission in plasmas at 566.934 nm from N VIII + helium emission line at 5876 Å + neutral iron line at 526.96 nm + calcium yellow line at 569.4 nm

{Yes or No, Radio rays have wavelengths of one millimeter or more. |type="()"} + Yes - No

{Using the equation ${\displaystyle \frac{c2}{\lambda T}\frac{1}{e^{\frac{c2}{\lambda T}}-1}{e}^{\frac{c2}{\lambda T}}-5=0}$ what temperature corresponds approximately to a Planckian peak wavelength of 580 nm? |type="()"} - 5140 K - 5800 K + 5170 K - 6000 K - 5870 K - 5250 K

{True or False, The Earth's atmosphere does not transmit yellow radiation between 470 and 590 nm in wavelength because of water vapor. |type="()"} - TRUE + FALSE

{Which of the following are characteristic of the telluric mercury green line? |type="[]"} + 546.1 nm + light pollution at the Calar Alto observatory - a decay product of uranium + mercury vapour lamps + tropospheric scattering + y-band of the ubvy Strömgren photometric system

{True or False, The Earth's atmosphere does not transmit infrared radiation between 6 and 7 microns in wavelength because of water vapor. |type="()"} + TRUE - FALSE

{Complete the text: |type="{}"} The three key parameters of a { periodic (i) } waveform are its { amplitude|volume (i) }, { phase|timing (i) } and its { frequency|pitch (i) }.

{True or False, Inverse Compton scattering allows low energy electromagnetic radiation to become high energy electromagnetic radiation. |type="()"} + TRUE - FALSE

</quiz>

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1. The electromagnetic radiation doses received by NASA and RSA astronauts probably are not the cause of the medical symptoms of spaceflight.
2. Gamma rays may hold the key to conversion of electromagnetic radiation back into matter.

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• Green astronomy/Quiz
• Planetary science/Quiz
• Radiation astrochemistry/Quiz
• Radiation astrogeography/Quiz
• Radiation astrohistory/Quiz
• Radiation astronomy/Quiz
• Theoretical radiation astronomy/Quiz

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• International Astronomical Union
• NASA/IPAC Extragalactic Database - NED
• NASA's National Space Science Data Center
• The SAO/NASA Astrophysics Data System
• SDSS Quick Look tool: SkyServer
• SIMBAD Astronomical Database
• SIMBAD Web interface, Harvard alternate
• Spacecraft Query at NASA
• Universal coordinate converter

Template:Principles of radiation astronomyTemplate:TlxTemplate:Sisterlinks