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HomeSchoolingAsk a question

Deck 2: A User S Guide to the Sky

Full screen (f)
exit full mode
Question
Earth spins completely upright like a giant top.
Use Space or
up arrow
down arrow
to flip the card.
Question
The scale of apparent visual magnitudes extends into negative numbers to represent the faintest objects in the sky.
Question
What is an asterism?

A) A legend or folklore association to a grouping of stars
B) Less formally defined group of stars outside the official 88 constellations
C) The council of astronomers who defined the 88 constellations
D) The northern pivot point of the celestial sphere
E) Constellations close enough to a celestial pole that they do not appear to rise from the east and set in the west
Question
Which is an example of an asterism?

A) Andromeda
B) Canis Major
C) Ursa Major
D) Big Dipper
E) Pegasus
Question
The nadir marks the point of the celestial sphere directly above your head.
Question
In ancient times, constellation boundaries were well defined.
Question
The International Astronomical Union established 88 constellations that represent a defined area of the sky.
Question
In a given constellation, the star designated with the Greek letter α  is always brighter than the star designated with the Greek letter   β .
Question
Which is an asterism of Pegasus?

A) Great Square
B) Orion
C) Andromeda
D) Scorpio
E) Cassiopeia
Question
The constellations are an ancient heritage handed down for thousands of years as ways to tell stories of mythical heroes and monsters.
Question
Because Earth's axis of rotation is inclined 23.4 degrees from vertical, the Sun moves into the northern sky in the spring and into the southern sky in the fall.
Question
What did the IAU establish in 1928?

A) The IAU classified Pluto as a dwarf planet.
B) The IAU published official names of all constellations.
C) The IAU recorded 88 constellations with defined boundaries.
D) The IAU recognized additional orbiting bodies in the Kuiper Belt.
E) The IAU recorded all the mythologies associated with 88 constellations.
Question
Astronomers describe the brightness of stars using the brilliance scale.
Question
The sky appears to rotate eastward around Earth each day, but that is a consequence of the westward rotation of Earth.
Question
From which language did the majority of star names originate?

A) Arabic
B) Latin
C) Greek
D) Spanish
E) Italian
Question
Most individual star names come from Latin and have been altered through passing centuries.
Question
The seasons are caused by Earth's orbit moving closer to or farther from the Sun.
Question
Flux is a measure of the light energy from a star that hits a collecting area of one square meter in one second.
Question
What was the purpose of the IAU establishing 88 official constellations?

A) To allow ancient stories of each constellation to be preserved
B) To name all constellations the same across any culture
C) To identify which constellation was created by which culture
D) To define boundaries for constellations including every part of the sky
E) To include additional, fainter stars within a constellation
Question
We are living in one of Earth's ice ages.
Question
If two stars have a magnitude difference of 5, what is their flux ratio?

A) 10.0
B) 12.6
C) 100.0
D) 250.0
E) 625.3
Question
If star A is 14.5 times brighter than star B, then what is their magnitude difference?

A) 1.2
B) 2.9
C) 63.1
D) 800
E) 6.2 × 105
Question
Why is the term "arc" used to describe units of measure for angular distance?

A) To avoid confusion with the minutes and seconds of time
B) To describe the arc-shaped distance between the stars
C) To distinguish the base unit of 10 per degree
D) To distinguish the difference between northern and southern spheres
E) To describe the placement of the stars within each hemisphere
Question
What is the cause for the slow movement of reference marks, such as the celestial poles and equator, to move across the sky?

A) precession
B) evolution
C) climate change
D) continental drift
E) angular revolution
Question
<strong> Figure 2-4 Review the accompanying figure (Figure 2-4) and identify point C.</strong> A) celestial equator B) north celestial pole C) south celestial pole D) zenith E) nadir <div style=padding-top: 35px> Figure 2-4
Review the accompanying figure (Figure 2-4) and identify point C.

A) celestial equator
B) north celestial pole
C) south celestial pole
D) zenith
E) nadir
Question
<strong> Figure 2-4 Review the accompanying figure  (Figure 2-4) and identify point A.</strong> A) south point B) nadir C) zenith D) north celestial pole E) south celestial pole <div style=padding-top: 35px> Figure 2-4
Review the accompanying figure  (Figure 2-4) and identify point A.

A) south point
B) nadir
C) zenith
D) north celestial pole
E) south celestial pole
Question
<strong> Figure 2-4 Review the accompanying figure  (Figure 2-4) and identify point B.</strong> A) zenith B) north point C) celestial equator D) south celestial pole E) north celestial pole <div style=padding-top: 35px> Figure 2-4
Review the accompanying figure  (Figure 2-4) and identify point B.

A) zenith
B) north point
C) celestial equator
D) south celestial pole
E) north celestial pole
Question
Earth's rotation is connected with a very slow celestial motion that can be detected only over _____

A) centuries
B) decades
C) a year
D) a few months
E) short brief periods
Question
<strong> Figure 2-2 The star Vega has a magnitude of 0.03. Using the accompanying figure ( Figure  2-2) , which object is brighter than Vega?</strong> A) Sun B) Venus C) Sirius D) Polaris E) full moon <div style=padding-top: 35px> Figure 2-2
The star Vega has a magnitude of 0.03. Using the accompanying figure ( Figure  2-2) , which object is brighter than Vega?

A) Sun
B) Venus
C) Sirius
D) Polaris
E) full moon
Question
Even though modern astronomers know that stars are scattered through space at different distances, they still use what scientific model to describe celestial locations in the sky?

A) apparent visual magnitude
B) Copernican revolution
C) celestial sphere
D) scientific orb
E) planetarium dome
Question
<strong> Figure 2-1 Examine the accompanying figure (Figure 2-1) . Which term would be the correct scientific designation for Polaris in Ursa Minoris?</strong> A) North Star B)   α Ursa Major C) -0.3 Ursa Minoris D) α Ursae Minoris E) β Ursae Minoris <div style=padding-top: 35px> Figure 2-1
Examine the accompanying figure (Figure 2-1) . Which term would be the correct scientific designation for Polaris in Ursa Minoris?

A) North Star
B)   α Ursa Major
C) -0.3 Ursa Minoris
D) α Ursae Minoris
E) β Ursae Minoris
Question
Betelgeuse is the brightest star of which constellation?

A) Orion
B) Ursa Minor
C) Ursa Major
D) Southern Cross
E) Cassiopeia
Question
What is the flux ratio of two stars whose difference in magnitude is 2.6?

A) 6.3
B) 10.8
C) 21.3
D) 632
E) 1090
Question
Which is a unit used to measure angular distance?

A) seconds
B) minutes
C) arc seconds
D) feet
E) kilometers
Question
What is the name of constellations that appear to never rise or set?

A) polar constellations
B) circumference constellations
C) circular constellations
D) celestial polar constellations
E) circumpolar constellations
Question
<strong> Figure 2-4 Review the accompanying figure  (Figure 2-4) . Where does the celestial equator always meet the horizon?</strong> A) at the north and south celestial poles B) at the north and south poles C) at the east and west points D) at the zenith and nadir E) at the equinox <div style=padding-top: 35px> Figure 2-4
Review the accompanying figure  (Figure 2-4) . Where does the celestial equator always meet the horizon?

A) at the north and south celestial poles
B) at the north and south poles
C) at the east and west points
D) at the zenith and nadir
E) at the equinox
Question
<strong> Figure 2-3 In the above image (Figure 2-3) , what is the observer measuring?</strong> A) angle B) arc C) distance D) angular distance E) angular momentum <div style=padding-top: 35px> Figure 2-3
In the above image (Figure 2-3) , what is the observer measuring?

A) angle
B) arc
C) distance
D) angular distance
E) angular momentum
Question
Which ancient astronomer recorded the magnitude of stars in his star catalog and was used successfully by astronomers for generations?

A) Ptolemy
B) Copernicus
C) Galileo
D) Kepler
E) Aristotle
Question
When can Sirius, a famous star of the Northern Hemisphere, be observed?

A) during summer
B) during spring
C) all year long
D) during winter
E) during fall
Question
Earth's rapid rotation makes its axis sweep out the shape of a cone, like a heavy top slowing down.  This motion is known as ____.

A) momentum
B) precession
C) revolution
D) precision
E) recession
Question
Match between columns
Premises:
Responses:
the point of the celestial sphere directly under your feet
ecliptic
the point of the celestial sphere directly under your feet
flux
the point of the celestial sphere directly under your feet
constellation
the point of the celestial sphere directly under your feet
magnitude scale
the point of the celestial sphere directly under your feet
nadir
the point of the celestial sphere directly under your feet
angular diameter
the point of the celestial sphere directly under your feet
asterism
the point of the celestial sphere directly under your feet
zenith
the point of the celestial sphere directly under your feet
celestial sphere
the point of the celestial sphere directly under your feet
angular distance
provides a measurement range for the brightness of stars
ecliptic
provides a measurement range for the brightness of stars
flux
provides a measurement range for the brightness of stars
constellation
provides a measurement range for the brightness of stars
magnitude scale
provides a measurement range for the brightness of stars
nadir
provides a measurement range for the brightness of stars
angular diameter
provides a measurement range for the brightness of stars
asterism
provides a measurement range for the brightness of stars
zenith
provides a measurement range for the brightness of stars
celestial sphere
provides a measurement range for the brightness of stars
angular distance
the angle between two lines extending from your eye to two objects in the sky
ecliptic
the angle between two lines extending from your eye to two objects in the sky
flux
the angle between two lines extending from your eye to two objects in the sky
constellation
the angle between two lines extending from your eye to two objects in the sky
magnitude scale
the angle between two lines extending from your eye to two objects in the sky
nadir
the angle between two lines extending from your eye to two objects in the sky
angular diameter
the angle between two lines extending from your eye to two objects in the sky
asterism
the angle between two lines extending from your eye to two objects in the sky
zenith
the angle between two lines extending from your eye to two objects in the sky
celestial sphere
the angle between two lines extending from your eye to two objects in the sky
angular distance
the point of the celestial sphere directly above your head
ecliptic
the point of the celestial sphere directly above your head
flux
the point of the celestial sphere directly above your head
constellation
the point of the celestial sphere directly above your head
magnitude scale
the point of the celestial sphere directly above your head
nadir
the point of the celestial sphere directly above your head
angular diameter
the point of the celestial sphere directly above your head
asterism
the point of the celestial sphere directly above your head
zenith
the point of the celestial sphere directly above your head
celestial sphere
the point of the celestial sphere directly above your head
angular distance
the measure of light energy striking one square meter per second
ecliptic
the measure of light energy striking one square meter per second
flux
the measure of light energy striking one square meter per second
constellation
the measure of light energy striking one square meter per second
magnitude scale
the measure of light energy striking one square meter per second
nadir
the measure of light energy striking one square meter per second
angular diameter
the measure of light energy striking one square meter per second
asterism
the measure of light energy striking one square meter per second
zenith
the measure of light energy striking one square meter per second
celestial sphere
the measure of light energy striking one square meter per second
angular distance
the angular distance across an object, from one edge to another
ecliptic
the angular distance across an object, from one edge to another
flux
the angular distance across an object, from one edge to another
constellation
the angular distance across an object, from one edge to another
magnitude scale
the angular distance across an object, from one edge to another
nadir
the angular distance across an object, from one edge to another
angular diameter
the angular distance across an object, from one edge to another
asterism
the angular distance across an object, from one edge to another
zenith
the angular distance across an object, from one edge to another
celestial sphere
the angular distance across an object, from one edge to another
angular distance
the apparent path of the Sun against the background of stars
ecliptic
the apparent path of the Sun against the background of stars
flux
the apparent path of the Sun against the background of stars
constellation
the apparent path of the Sun against the background of stars
magnitude scale
the apparent path of the Sun against the background of stars
nadir
the apparent path of the Sun against the background of stars
angular diameter
the apparent path of the Sun against the background of stars
asterism
the apparent path of the Sun against the background of stars
zenith
the apparent path of the Sun against the background of stars
celestial sphere
the apparent path of the Sun against the background of stars
angular distance
a less formally defined grouping of stars
ecliptic
a less formally defined grouping of stars
flux
a less formally defined grouping of stars
constellation
a less formally defined grouping of stars
magnitude scale
a less formally defined grouping of stars
nadir
a less formally defined grouping of stars
angular diameter
a less formally defined grouping of stars
asterism
a less formally defined grouping of stars
zenith
a less formally defined grouping of stars
celestial sphere
a less formally defined grouping of stars
angular distance
named group of stars with finite boundaries in the sky
ecliptic
named group of stars with finite boundaries in the sky
flux
named group of stars with finite boundaries in the sky
constellation
named group of stars with finite boundaries in the sky
magnitude scale
named group of stars with finite boundaries in the sky
nadir
named group of stars with finite boundaries in the sky
angular diameter
named group of stars with finite boundaries in the sky
asterism
named group of stars with finite boundaries in the sky
zenith
named group of stars with finite boundaries in the sky
celestial sphere
named group of stars with finite boundaries in the sky
angular distance
a scientific model of the sky
ecliptic
a scientific model of the sky
flux
a scientific model of the sky
constellation
a scientific model of the sky
magnitude scale
a scientific model of the sky
nadir
a scientific model of the sky
angular diameter
a scientific model of the sky
asterism
a scientific model of the sky
zenith
a scientific model of the sky
celestial sphere
a scientific model of the sky
angular distance
Question
The Milankovitch hypothesis suggests that the shape of Earth's orbit, its precession, and tilted axis can influence climatic changes and thus cause _____.

A) hurricanes
B) ice ages
C) season shift
D) longer days
E) warmer weather
Question
Within the Northern Hemisphere, the vernal equinox marks the start of ____.

A) winter
B) fall
C) summer
D) spring
E) a new year
Question
Describe the magnitude scale and compare the ancient method to the current methodology used today.
Question
On the day of the _______________ in late June, Earth's Northern Hemisphere is inclined toward  the Sun.
Question
Day and night cycles are caused by the ____ of Earth.

A) revolution
B) location
C) axis tilt
D) rotation
E) boundaries
Question
What date is the autumnal equinox for the Southern hemisphere?

A) December 21
B) September 22
C) June 22
D) March 20
E) December 25
Question
Why is Earth's orbit often referred to be a "nearly perfect circle" and not a true ellipse?
Question
When the Earth is at ________, it is at its closest point to the Sun in its orbit.

A) aphelion
B) precession
C) perihelion
D) the north celestial pole
E) its zenith
Question
Many of the ancient astronomers applied astrology alongside astronomy, but that no longer holds true for modern astronomers. Explain why astrology is no longer considered useful to the modern scientist.
Question
In about 12,000 years, the star closest to the north celestial pole will be __________.

A) Vega
B) Polaris
C) Sirius
D) the Sun
E) Venus
Question
If Earth rotated about its axis completely upright, what would we fail to experience?

A) holidays
B) seasons
C) weather
D) day and night
E) a 365 day year
Question
The eastward rotation of Earth causes the Sun, Moon, planets, and stars to move _______________ in the sky.
Question
Which planet is often called our most brilliant "morning star"?

A) Venus
B) Jupiter
C) Mars
D) Mercury
E) Saturn
Question
During which event does the Sun reach its most southern point in the celestial sphere within the Northern hemisphere?

A) nadir
B) summer solstice
C) vernal equinox
D) autumnal equinox
E) winter solstice
Question
What is the apparent path of the Sun against the background of stars?

A) ecliptic
B) zenith
C) nadir
D) elliptic
E) shadow
Question
Describe the process of precession.
Question
Earth _______________ once a year around the Sun.
Question
Due to the cycle of precession, in 12,000 years, which star will replace Polaris as the guiding North Star?

A) Betelgeuse
B) Sirius
C) Vega
D) Rigel
E) Spica
Question
Arc seconds are _______________th of an arc minute.
Question
What is the Milankovitch hypothesis and what evidence is there to support this hypothesis?
Question
Why do many people think stars are not in the sky during the daytime?
Question
In 1928, the International Astronomical Union (IAU) established _______________ official constellations with carefully defined boundaries that together include every part of the sky.
Question
Why can someone in the United States almost always be able to observe the constellations such as Ursa Major, Cassiopeia, and Perseus?
Question
Explain why we have seasons and compare/contrast the cycle of seasons for both hemispheres.
Question
Earth's axis is tilted at an angle of _______________ degrees.
Question
The ecliptic is often called the _______________ of Earth's orbit on the sky.
Question
Astronomers use the _______________ alphabet to identify the bright stars in a constellation in approximate order of brightness.
Question
Astrology is an example of _______________.
Question
Explain why it is difficult to see Mercury in the night sky.
Question
Scientists constructed a history of ocean temperatures using deep ocean cores that convincingly matched the predictions of the _______________, describing the cause of multiple ice ages on Earth.
Question
On the day of summer solstice, explain the position of Earth and the light received by each of the hemispheres.
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Deck 2: A User S Guide to the Sky
1
Earth spins completely upright like a giant top.
False
2
The scale of apparent visual magnitudes extends into negative numbers to represent the faintest objects in the sky.
False
3
What is an asterism?

A) A legend or folklore association to a grouping of stars
B) Less formally defined group of stars outside the official 88 constellations
C) The council of astronomers who defined the 88 constellations
D) The northern pivot point of the celestial sphere
E) Constellations close enough to a celestial pole that they do not appear to rise from the east and set in the west
B
4
Which is an example of an asterism?

A) Andromeda
B) Canis Major
C) Ursa Major
D) Big Dipper
E) Pegasus
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
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k this deck
5
The nadir marks the point of the celestial sphere directly above your head.
Unlock Deck
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Unlock Deck
k this deck
6
In ancient times, constellation boundaries were well defined.
Unlock Deck
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Unlock Deck
k this deck
7
The International Astronomical Union established 88 constellations that represent a defined area of the sky.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
8
In a given constellation, the star designated with the Greek letter α  is always brighter than the star designated with the Greek letter   β .
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
9
Which is an asterism of Pegasus?

A) Great Square
B) Orion
C) Andromeda
D) Scorpio
E) Cassiopeia
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
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k this deck
10
The constellations are an ancient heritage handed down for thousands of years as ways to tell stories of mythical heroes and monsters.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
11
Because Earth's axis of rotation is inclined 23.4 degrees from vertical, the Sun moves into the northern sky in the spring and into the southern sky in the fall.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
12
What did the IAU establish in 1928?

A) The IAU classified Pluto as a dwarf planet.
B) The IAU published official names of all constellations.
C) The IAU recorded 88 constellations with defined boundaries.
D) The IAU recognized additional orbiting bodies in the Kuiper Belt.
E) The IAU recorded all the mythologies associated with 88 constellations.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
13
Astronomers describe the brightness of stars using the brilliance scale.
Unlock Deck
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Unlock Deck
k this deck
14
The sky appears to rotate eastward around Earth each day, but that is a consequence of the westward rotation of Earth.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
15
From which language did the majority of star names originate?

A) Arabic
B) Latin
C) Greek
D) Spanish
E) Italian
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
16
Most individual star names come from Latin and have been altered through passing centuries.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
17
The seasons are caused by Earth's orbit moving closer to or farther from the Sun.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
18
Flux is a measure of the light energy from a star that hits a collecting area of one square meter in one second.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
19
What was the purpose of the IAU establishing 88 official constellations?

A) To allow ancient stories of each constellation to be preserved
B) To name all constellations the same across any culture
C) To identify which constellation was created by which culture
D) To define boundaries for constellations including every part of the sky
E) To include additional, fainter stars within a constellation
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
20
We are living in one of Earth's ice ages.
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
21
If two stars have a magnitude difference of 5, what is their flux ratio?

A) 10.0
B) 12.6
C) 100.0
D) 250.0
E) 625.3
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
22
If star A is 14.5 times brighter than star B, then what is their magnitude difference?

A) 1.2
B) 2.9
C) 63.1
D) 800
E) 6.2 × 105
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
23
Why is the term "arc" used to describe units of measure for angular distance?

A) To avoid confusion with the minutes and seconds of time
B) To describe the arc-shaped distance between the stars
C) To distinguish the base unit of 10 per degree
D) To distinguish the difference between northern and southern spheres
E) To describe the placement of the stars within each hemisphere
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
24
What is the cause for the slow movement of reference marks, such as the celestial poles and equator, to move across the sky?

A) precession
B) evolution
C) climate change
D) continental drift
E) angular revolution
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
25
<strong> Figure 2-4 Review the accompanying figure (Figure 2-4) and identify point C.</strong> A) celestial equator B) north celestial pole C) south celestial pole D) zenith E) nadir Figure 2-4
Review the accompanying figure (Figure 2-4) and identify point C.

A) celestial equator
B) north celestial pole
C) south celestial pole
D) zenith
E) nadir
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
26
<strong> Figure 2-4 Review the accompanying figure  (Figure 2-4) and identify point A.</strong> A) south point B) nadir C) zenith D) north celestial pole E) south celestial pole Figure 2-4
Review the accompanying figure  (Figure 2-4) and identify point A.

A) south point
B) nadir
C) zenith
D) north celestial pole
E) south celestial pole
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
27
<strong> Figure 2-4 Review the accompanying figure  (Figure 2-4) and identify point B.</strong> A) zenith B) north point C) celestial equator D) south celestial pole E) north celestial pole Figure 2-4
Review the accompanying figure  (Figure 2-4) and identify point B.

A) zenith
B) north point
C) celestial equator
D) south celestial pole
E) north celestial pole
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
28
Earth's rotation is connected with a very slow celestial motion that can be detected only over _____

A) centuries
B) decades
C) a year
D) a few months
E) short brief periods
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
29
<strong> Figure 2-2 The star Vega has a magnitude of 0.03. Using the accompanying figure ( Figure  2-2) , which object is brighter than Vega?</strong> A) Sun B) Venus C) Sirius D) Polaris E) full moon Figure 2-2
The star Vega has a magnitude of 0.03. Using the accompanying figure ( Figure  2-2) , which object is brighter than Vega?

A) Sun
B) Venus
C) Sirius
D) Polaris
E) full moon
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30
Even though modern astronomers know that stars are scattered through space at different distances, they still use what scientific model to describe celestial locations in the sky?

A) apparent visual magnitude
B) Copernican revolution
C) celestial sphere
D) scientific orb
E) planetarium dome
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31
<strong> Figure 2-1 Examine the accompanying figure (Figure 2-1) . Which term would be the correct scientific designation for Polaris in Ursa Minoris?</strong> A) North Star B)   α Ursa Major C) -0.3 Ursa Minoris D) α Ursae Minoris E) β Ursae Minoris Figure 2-1
Examine the accompanying figure (Figure 2-1) . Which term would be the correct scientific designation for Polaris in Ursa Minoris?

A) North Star
B)   α Ursa Major
C) -0.3 Ursa Minoris
D) α Ursae Minoris
E) β Ursae Minoris
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32
Betelgeuse is the brightest star of which constellation?

A) Orion
B) Ursa Minor
C) Ursa Major
D) Southern Cross
E) Cassiopeia
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33
What is the flux ratio of two stars whose difference in magnitude is 2.6?

A) 6.3
B) 10.8
C) 21.3
D) 632
E) 1090
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34
Which is a unit used to measure angular distance?

A) seconds
B) minutes
C) arc seconds
D) feet
E) kilometers
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35
What is the name of constellations that appear to never rise or set?

A) polar constellations
B) circumference constellations
C) circular constellations
D) celestial polar constellations
E) circumpolar constellations
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36
<strong> Figure 2-4 Review the accompanying figure  (Figure 2-4) . Where does the celestial equator always meet the horizon?</strong> A) at the north and south celestial poles B) at the north and south poles C) at the east and west points D) at the zenith and nadir E) at the equinox Figure 2-4
Review the accompanying figure  (Figure 2-4) . Where does the celestial equator always meet the horizon?

A) at the north and south celestial poles
B) at the north and south poles
C) at the east and west points
D) at the zenith and nadir
E) at the equinox
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37
<strong> Figure 2-3 In the above image (Figure 2-3) , what is the observer measuring?</strong> A) angle B) arc C) distance D) angular distance E) angular momentum Figure 2-3
In the above image (Figure 2-3) , what is the observer measuring?

A) angle
B) arc
C) distance
D) angular distance
E) angular momentum
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38
Which ancient astronomer recorded the magnitude of stars in his star catalog and was used successfully by astronomers for generations?

A) Ptolemy
B) Copernicus
C) Galileo
D) Kepler
E) Aristotle
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39
When can Sirius, a famous star of the Northern Hemisphere, be observed?

A) during summer
B) during spring
C) all year long
D) during winter
E) during fall
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40
Earth's rapid rotation makes its axis sweep out the shape of a cone, like a heavy top slowing down.  This motion is known as ____.

A) momentum
B) precession
C) revolution
D) precision
E) recession
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41
Match between columns
Premises:
Responses:
the point of the celestial sphere directly under your feet
ecliptic
the point of the celestial sphere directly under your feet
flux
the point of the celestial sphere directly under your feet
constellation
the point of the celestial sphere directly under your feet
magnitude scale
the point of the celestial sphere directly under your feet
nadir
the point of the celestial sphere directly under your feet
angular diameter
the point of the celestial sphere directly under your feet
asterism
the point of the celestial sphere directly under your feet
zenith
the point of the celestial sphere directly under your feet
celestial sphere
the point of the celestial sphere directly under your feet
angular distance
provides a measurement range for the brightness of stars
ecliptic
provides a measurement range for the brightness of stars
flux
provides a measurement range for the brightness of stars
constellation
provides a measurement range for the brightness of stars
magnitude scale
provides a measurement range for the brightness of stars
nadir
provides a measurement range for the brightness of stars
angular diameter
provides a measurement range for the brightness of stars
asterism
provides a measurement range for the brightness of stars
zenith
provides a measurement range for the brightness of stars
celestial sphere
provides a measurement range for the brightness of stars
angular distance
the angle between two lines extending from your eye to two objects in the sky
ecliptic
the angle between two lines extending from your eye to two objects in the sky
flux
the angle between two lines extending from your eye to two objects in the sky
constellation
the angle between two lines extending from your eye to two objects in the sky
magnitude scale
the angle between two lines extending from your eye to two objects in the sky
nadir
the angle between two lines extending from your eye to two objects in the sky
angular diameter
the angle between two lines extending from your eye to two objects in the sky
asterism
the angle between two lines extending from your eye to two objects in the sky
zenith
the angle between two lines extending from your eye to two objects in the sky
celestial sphere
the angle between two lines extending from your eye to two objects in the sky
angular distance
the point of the celestial sphere directly above your head
ecliptic
the point of the celestial sphere directly above your head
flux
the point of the celestial sphere directly above your head
constellation
the point of the celestial sphere directly above your head
magnitude scale
the point of the celestial sphere directly above your head
nadir
the point of the celestial sphere directly above your head
angular diameter
the point of the celestial sphere directly above your head
asterism
the point of the celestial sphere directly above your head
zenith
the point of the celestial sphere directly above your head
celestial sphere
the point of the celestial sphere directly above your head
angular distance
the measure of light energy striking one square meter per second
ecliptic
the measure of light energy striking one square meter per second
flux
the measure of light energy striking one square meter per second
constellation
the measure of light energy striking one square meter per second
magnitude scale
the measure of light energy striking one square meter per second
nadir
the measure of light energy striking one square meter per second
angular diameter
the measure of light energy striking one square meter per second
asterism
the measure of light energy striking one square meter per second
zenith
the measure of light energy striking one square meter per second
celestial sphere
the measure of light energy striking one square meter per second
angular distance
the angular distance across an object, from one edge to another
ecliptic
the angular distance across an object, from one edge to another
flux
the angular distance across an object, from one edge to another
constellation
the angular distance across an object, from one edge to another
magnitude scale
the angular distance across an object, from one edge to another
nadir
the angular distance across an object, from one edge to another
angular diameter
the angular distance across an object, from one edge to another
asterism
the angular distance across an object, from one edge to another
zenith
the angular distance across an object, from one edge to another
celestial sphere
the angular distance across an object, from one edge to another
angular distance
the apparent path of the Sun against the background of stars
ecliptic
the apparent path of the Sun against the background of stars
flux
the apparent path of the Sun against the background of stars
constellation
the apparent path of the Sun against the background of stars
magnitude scale
the apparent path of the Sun against the background of stars
nadir
the apparent path of the Sun against the background of stars
angular diameter
the apparent path of the Sun against the background of stars
asterism
the apparent path of the Sun against the background of stars
zenith
the apparent path of the Sun against the background of stars
celestial sphere
the apparent path of the Sun against the background of stars
angular distance
a less formally defined grouping of stars
ecliptic
a less formally defined grouping of stars
flux
a less formally defined grouping of stars
constellation
a less formally defined grouping of stars
magnitude scale
a less formally defined grouping of stars
nadir
a less formally defined grouping of stars
angular diameter
a less formally defined grouping of stars
asterism
a less formally defined grouping of stars
zenith
a less formally defined grouping of stars
celestial sphere
a less formally defined grouping of stars
angular distance
named group of stars with finite boundaries in the sky
ecliptic
named group of stars with finite boundaries in the sky
flux
named group of stars with finite boundaries in the sky
constellation
named group of stars with finite boundaries in the sky
magnitude scale
named group of stars with finite boundaries in the sky
nadir
named group of stars with finite boundaries in the sky
angular diameter
named group of stars with finite boundaries in the sky
asterism
named group of stars with finite boundaries in the sky
zenith
named group of stars with finite boundaries in the sky
celestial sphere
named group of stars with finite boundaries in the sky
angular distance
a scientific model of the sky
ecliptic
a scientific model of the sky
flux
a scientific model of the sky
constellation
a scientific model of the sky
magnitude scale
a scientific model of the sky
nadir
a scientific model of the sky
angular diameter
a scientific model of the sky
asterism
a scientific model of the sky
zenith
a scientific model of the sky
celestial sphere
a scientific model of the sky
angular distance
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42
The Milankovitch hypothesis suggests that the shape of Earth's orbit, its precession, and tilted axis can influence climatic changes and thus cause _____.

A) hurricanes
B) ice ages
C) season shift
D) longer days
E) warmer weather
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43
Within the Northern Hemisphere, the vernal equinox marks the start of ____.

A) winter
B) fall
C) summer
D) spring
E) a new year
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44
Describe the magnitude scale and compare the ancient method to the current methodology used today.
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45
On the day of the _______________ in late June, Earth's Northern Hemisphere is inclined toward  the Sun.
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46
Day and night cycles are caused by the ____ of Earth.

A) revolution
B) location
C) axis tilt
D) rotation
E) boundaries
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47
What date is the autumnal equinox for the Southern hemisphere?

A) December 21
B) September 22
C) June 22
D) March 20
E) December 25
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48
Why is Earth's orbit often referred to be a "nearly perfect circle" and not a true ellipse?
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49
When the Earth is at ________, it is at its closest point to the Sun in its orbit.

A) aphelion
B) precession
C) perihelion
D) the north celestial pole
E) its zenith
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50
Many of the ancient astronomers applied astrology alongside astronomy, but that no longer holds true for modern astronomers. Explain why astrology is no longer considered useful to the modern scientist.
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51
In about 12,000 years, the star closest to the north celestial pole will be __________.

A) Vega
B) Polaris
C) Sirius
D) the Sun
E) Venus
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52
If Earth rotated about its axis completely upright, what would we fail to experience?

A) holidays
B) seasons
C) weather
D) day and night
E) a 365 day year
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53
The eastward rotation of Earth causes the Sun, Moon, planets, and stars to move _______________ in the sky.
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54
Which planet is often called our most brilliant "morning star"?

A) Venus
B) Jupiter
C) Mars
D) Mercury
E) Saturn
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55
During which event does the Sun reach its most southern point in the celestial sphere within the Northern hemisphere?

A) nadir
B) summer solstice
C) vernal equinox
D) autumnal equinox
E) winter solstice
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56
What is the apparent path of the Sun against the background of stars?

A) ecliptic
B) zenith
C) nadir
D) elliptic
E) shadow
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57
Describe the process of precession.
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58
Earth _______________ once a year around the Sun.
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59
Due to the cycle of precession, in 12,000 years, which star will replace Polaris as the guiding North Star?

A) Betelgeuse
B) Sirius
C) Vega
D) Rigel
E) Spica
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60
Arc seconds are _______________th of an arc minute.
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61
What is the Milankovitch hypothesis and what evidence is there to support this hypothesis?
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62
Why do many people think stars are not in the sky during the daytime?
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63
In 1928, the International Astronomical Union (IAU) established _______________ official constellations with carefully defined boundaries that together include every part of the sky.
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64
Why can someone in the United States almost always be able to observe the constellations such as Ursa Major, Cassiopeia, and Perseus?
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65
Explain why we have seasons and compare/contrast the cycle of seasons for both hemispheres.
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66
Earth's axis is tilted at an angle of _______________ degrees.
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67
The ecliptic is often called the _______________ of Earth's orbit on the sky.
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68
Astronomers use the _______________ alphabet to identify the bright stars in a constellation in approximate order of brightness.
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69
Astrology is an example of _______________.
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70
Explain why it is difficult to see Mercury in the night sky.
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71
Scientists constructed a history of ocean temperatures using deep ocean cores that convincingly matched the predictions of the _______________, describing the cause of multiple ice ages on Earth.
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72
On the day of summer solstice, explain the position of Earth and the light received by each of the hemispheres.
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