Liquids/Liquid objects/Astronomy/Quiz

Liquid-object astronomy is a lecture and an article about a specific type of astronomical object and the techniques needed to observe it.

You are free to take this quiz based on liquid-object astronomy at any time.

To improve your score, read and study the lecture, the links contained within, listed under See also, External links, and in the template. This should give you adequate background to get 100 %.

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Quiz
{Which of the following are cosmogonical phenomenon associated with the Sun, or solar system? + watery abyss + aphrodite + Hermeneutes - cold dark matter + Heracles - unseen mass + Silver age
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{Complete the text: Condensed noble gases, most notably liquid { xenon|argon (i) } and liquid { argon|xenon (i) }, are excellent radiation detection { media (i) }.
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{True or False, The presence of a liquid may be detected by using S-waves. + TRUE - FALSE
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{Observations of Titan have benefited greatly from what phenomenon? - a dense, opaque atmosphere - lightning - extensive meteorite cratering - a flattening out + liquid hydrocarbon lakes - the reflected light of allotropes and compounds of sulfur
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{Which of the following are radiation astronomy phenomena associated with the apparent liquid-object Earth? + rain + snow + hail + neutron emission - polar coronal holes + meteor emission - rotation
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{Why is much of the surface of Mars covered with red iron oxide dust when the rocks that compose much of its surface are blue or violet? - Mars has been systematically bombarded with small iron-nickel meteorites or micrometeorites that oxidize in its atmosphere - Mars has been frequently bombarded with hematite containing micrometeorites - asteroid impacts on Mars may have forced iron from near its core into the atmosphere and onto the surface as hematite dust that oxidized - Mars is like Earth in surface hematite composition, but Earth has much more water + precipitation from iron-rich water
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{Complete the text: Match up the item letter with each of the cosmogonic possibilities below: interior models of the giant planets - A high interest for cosmogony, geophysics and nuclear physics - B hierarchical accumulation - C clouds and globular clusters - D cosmic helium abundance - E deuterium fusion - F a large deficiency of light elements - G after galactic sized systems had collapsed - H the motions of hydrogen { D (i) } formation of luminous quasars { H (i) }. stars with an initial mass less than the solar mass { G (i) }. rotating liquid drops { B|F (i) }. primordial is less than 26 per cent { E (i) }. a solar mixture of elements dominated by hydrogen and helium gas { A (i) }. around 13 Jupiter masses { F (i) }. smaller rocky objects { C (i) }.
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{True or False, A hydrometeor is a precipitation product. + TRUE - FALSE
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{Usually associated with clouds filling the sky, thunder and lightning, wind and what water based meteorites { rain (i) }
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{Which of the following is not a characteristic of showers? + throwing a beam - meteors - rain - snow - hail
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{A collimated stream, spurt or flow of liquid or gas or plasma in a narrow cone of particles? { jet|a jet (i) }
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{Complete the text: Match up the type of Sun system astrogony with each of the possibilities below: Babylonian epic story of creation - A a primordial or first Greek god - B the primeval chaos - C creation of heaven and earth - D Greek god personifying the sky - E Cronus (Saturn) castrating his father - F separation of the waters by a firmament { D (i) }. Chaos magno { B (i) }. Uranus { F (i) }. watery abyss { C (i) }. Ouranos { E (i) } Enuma Elish { A (i) }.
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Hypotheses

 * 1) Detecting liquid objects in astronomy requires special techniques.