Passed
What is your "address"? - Answers Earth, Solar System, Milky Way, Local Group, Local Super Cluster.
Universe
A television advertisement claiming that a product is light-years ahead of its time does not make sense
because _________. - Answers it uses "light-years" to talk about time, but a light-year is a unit of
distance
When we look at an object that is 1,000 light-years away we see it _________. - Answers As it was 1000
years ago
The total number of planets orbiting the sun is __. - Answers 8
The Astronomical Unit is about 150 million km. - Answers True
This is the system of several hundred billion stars in which our sun lives: - Answers Milky Way
Superclusters are ___________. - Answers Collections of many clusters of galaxies
The local group are the closest galaxies to our Milky Way. - Answers True
A light year is about 10 trillion km (6 trillion miles). - Answers True
The distance from the sun to the center of the Milky Way is approximately _______. - Answers 25,000 ly
The Earth orbits around the Sun. Another word for orbits is - Answers Revolves
When a planet spins on its axis this is called rotation. - Answers True
The speed of light is - Answers 300,000 km/ second
A light-year is a unit of - Answers Distance
Which of the following is the best analogy? The Earth is to the Solar System as...... - Answers The Sun is
to the Milky Way
A recognized grouping of stars in the sky is called a(n) _________. - Answers Constellation
Declination on the celestial sphere has this role on the Earth: - Answers Latitude
Right ascension on the celestial sphere has this role on the Earth: - Answers Longititude
These stars are always above the horizon. - Answers Circumpolar
Precession takes about ___________ to complete one full cycle. - Answers 26,000 years
, A solar day is - Answers The time it takes the Sun to go from its highest point in the sky one day, to its
highest point in the sky on the following day.
The new usage for blue moon means ___________. - Answers 2 full moons in same month
A total solar eclipse is visible - Answers Only for observers in the moon's umbra.
The best explanation of why an eclipse doesn't occur every new or full moon phase is that - Answers The
moon's orbital plane is 5 degrees off of the Earth's orbital plane
The solar system was born from - Answers An immense interstellar cloud of gas and dust.
Kant and Laplace proposed this theory of the Solar System formation: _____. - Answers Solar nebula
theory
As far as the planets are concerned, the solar system could be described as a thin rotating disk because -
Answers All the planets orbit in nearly the same plane and orbit in the same direction.
A new theory about many planets orbiting other stars is they formed and then ______ to their present
position. - Answers Migrated
The origin of the Moon is thought to be best explained by _____. - Answers Collision
Craters on the Moon are created mostly by _____. - Answers Impact
Why are the inner planets made of denser materials than the outer planets? - Answers the sun's gravity
pulled denser materials toward the inner part of the solar nebula, while lighter gases escaped more
easily
Based upon your understanding of the origins of the Solar System, which planet is the most metal-rich
planet in our solar system? - Answers Mercury
What was the primary role of the dust grains in the solar nebula cloud? - Answers To cool warm matter
by radiating heat away within the nebular cloud, to act as condensation nuclei for atoms to attach too to
form a planet, to provide the necessary high gravity to collapse the nebular cloud to form the protosun.
What is responsible for this "apparent path" of the stars in the night sky? - Answers the rotation of Earth
The changing constellations over the course of a year are a result of - Answers the revolution of the
Earth around the Sun
Which of the following best describes the meaning of declination and right ascension? - Answers They
are coordinates on the celestial sphere, with declination telling us the angular distance of an object from
the celestial equator and right ascension telling us how far around the celestial sphere an object is
located from the vernal equinox