Mars/Quiz

Mars is a lecture about the study of this astronomical object.

You are free to take this quiz based on Mars 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 %.

As a "learning by doing" resource, this quiz helps you to assess your knowledge and understanding of the information, and it is a quiz you may take over and over as a learning resource to improve your knowledge, understanding, test-taking skills, and your score.

Suggestion: Have the lecture available in a separate window.

To master the information and use only your memory while taking the quiz, try rewriting the information from more familiar points of view, or be creative with association.

Enjoy learning by doing!

Quiz
{Complete the text: When imaged in X-rays, Mars appears like a gas { dwarf (i) } rather than a { rocky (i) } planet.
 * type="{}"}

{Yes or No, The rocky surface of the planet Mars can be detected when Mars is observed using superluminal astronomy. - Yes + No
 * type=""}

{Which of the following is not a phenomenon associated with violet astronomy? - photographs of the planet Venus taken in 1927 - the purple haze within a few arcseconds of the central star of the Homunculus - the faintness of carbon stars - the stellar abundance of aluminum - adaptive optics + the helium beta line
 * type=""}

{True or False, When Mars is viewed in the ultraviolet, its color appears brownish. - TRUE + FALSE
 * type=""}

{Moldavite is a mineral that may be associated with what radiation astronomy phenomenon? - predicting the end of the Earth - determining the accuracy of local computers + meteorite impacts - demonstrating that Mars was once a comet - predicting when currently dormant volcanoes will erupt + fireballs
 * type="[]"}

{Which types of radiation astronomy directly observe the rocky-object surface of Mars? - meteor astronomy - cosmic-ray astronomy - neutrals astronomy - neutron astronomy - proton astronomy + beta-particle astronomy - neutrino astronomy + gamma-ray astronomy - X-ray astronomy + optical astronomy - ultraviolet astronomy + visual astronomy + violet astronomy + blue astronomy + cyan astronomy + green astronomy + yellow astronomy + orange astronomy + red astronomy - infrared astronomy - submillimeter astronomy - radio astronomy + radar astronomy - microwave astronomy - superluminal astronomy
 * type="[]"}

{The Mesoamerican Long Count calendar is an astronomical document produced to help astronomers for what purpose? - predict the end of the Earth - determine the accuracy of local computers + accurately predict the equinoxes - demonstrate that Mars was once a comet - predict when currently dormant volcanoes will erupt - demonstrate that the local pyramids were built by aliens
 * type=""}

{Which of the following phenomena are associated with Mars? - a god of peace + has been occulted by the Moon + often appears reddish - currently dormant volcanoes only on the Sun-facing side - a breathable atmosphere
 * type="[]"}

{Mars is not known historically for which of the following? - being in orbit around the Sun in 10,000 b2k - imaged by the MAVEN probe + a gas dwarf when viewed in the ultraviolet - only slightly larger than Mercury - may have been called Bouddha in human memory - having little or no surface water
 * type=""}

{Complete the text: Match up the object viewed with its image: Mars - K Sun's chromosphere- L calcite - M Venus - N Jupiter's aurora - O Jupiter - P Io - Q Saturn - R Betelgeuse - S Mira - T LAB-1 - U Messier 101 - V { L (i) }. { Q (i) }. { T (i) }. { N (i) }. { R (i) }. { O (i) }. { U (i) } { K (i) }. { S (i) }. { P (i) }. { M (i) }. { V (i) }.
 * type="{}"}

Hypotheses

 * 1) Direct hits by large asteroids eliminated oceans on Mars.