PHS Test Chapter 14, 15 & 16
a classification scheme to compensate for the distance differences to stars; calculations of the brightness that stars would appear to have if they were all at a defined, standard distance of 10 parsecs
absolute magnitude
Distance in outer space is measured in terms of a. kilometers b. megameters c. light-years d. miles
kilometers
The basic property of a main sequence star that determines most of its other properties, including its location on the H-R diagram, is a. brightness b. color c, temperature d. mass
mass
a diffuse mass of interstellar clouds of hydrogen has or dust
nebulae
If the core remaining after a supernova has a mass between 1.5 and 3 solar masses, it collapses to form a a. white-dwarf b. neutron star c. red giant d. black hole
neutron star
very small superdense remains of a supernova with a center core of pure neutrons
neutron star
Which of the following elements forms in a supernova explosion of a dying star? a. hydrogen b. carbon c. nitrogen d. nickel
nickel
The color of a star is related to its a. composition b. apparent magnitude c. absolute magnitude d. surface temperature
surface temperature.
Which of the following coordinate system of lines depends on where you are on the surface of Earth? a. Celestial meridian b. Celestial equator c. North celestial pole d. None of the Above
Celestial meridian
a bright variable star that can be used to measure
Cepheid variable
The greater the distance to a galaxy, the greater a redshift in its spectral lines. This is known as a. doppler's law b. cepheid's law c. Hubble's law d. Kepler's law
Hubble's Law
The name of our galaxy is the a. solar system b. main sequence c. Milky Way d. Polaris
Milky Way
The collapse of a massive star a. results in a tremendous explosion called a supernova b. forms a white dwarf c. forms planetary nebulae d. results in a tremendous explosion called pulsar
a. results in a tremendous explosion called a supernova
The brightness of a star at a defined standard distance is a. apparent magnitude b. apparent longitude c. absolute magnitude d. absolute latitude
absolute magnitude
Our Sun is a. one of the several stars in the solar system b. the brightest star in the night sky c. an average star, considering mass and age. d. a protostar
an average star, considering mass and age.
a classification scheme for different levels of brightness of stars that you see; brightness values range from one to six with the number one (first magnitude) assigned to the brightest star and the number six (sixth magnitude) assigned to the faintest star that can be seen
apparent magnitude
The lifetime of a star depends on its a. composition b. mass c. temperature d. location
b. mass
current model of galactic evolution in which the universe was created from an intense and brilliant explosion from a primeval fireball
big bang theory
The product of the collapse of a massive star with a core three rimes the mass of our Sun is a a. neutron star b. pulsar c. red giant d. black hole
black hole
the theoretical remaining core of a supernova that is so dense that even light cannot escape
black hole
Red giant stars are a. bright, low-temerature giants b. dim, low-temperature giants c. bright, high-temperature giants d. dim-high-temperature giants
bright, low-temperature
The stages in the life of a star are a. protostar, main sequence, white dwarf, and red giant b. protostar, main sequence, red giant, and red dwarf c. protostar, main sequence, red giant, and white dwarf d. Protostar, main sequence, red giant, and nebulae.
c. protostar, main sequence, red giant, white dwarf
line of the equator of the Earth directly above the Earth; the equator of the Earth projected on the celestial sphere
celestial equator
an imaginary line in the sky directly above you that runs north through the north celestial pole, south through the south celestial pole, and back around the other side to make a big circle around the Earth
celestial meridian
A referent system that can be used to locate objects in the sky is the a. celestial globe b. celestial coordinates c. celestial sphere d. celestial maps
celestial sphere
The interior of an average star is proposed to contain all of the following except a a. conduction zone b. core c. radiation zone d. convection zone
conduction zone
In which part of a newborn star does the nuclear fusion take place? a. convection zone b. radiation zone c. core d. all of the above
core
If you were at the north celestial pole looking down on Earth, how would it appear to be moving? a. clockwise b. counter clockwise c. one way, then the other as a pendulum d. it would not appear to move from this location
counterclockwise
The period-brightness relationship of a Cepheid variable star allows astronomers to measure a. distance b. age of stars c. luminosity d. size
distance
What is the obstacle to finding extraterrestrial life? a. money b. number of stars c. distance and time d. language
distance and time
Your answer to 25 means that the moon, sun, and stars that are not circumpolar appear to rise in the a. west, move in an arc, then set in the east. b. north, move in an arc, then set in the south c. east, move in an arc, then set in the west d. south, move in an arc, then set in the north
east, move in an arc, then set in the west
Outerspace is mostly a. galaxies b. stars c. planets d. empty space
empty space
The brightest of the stars listed are the a. first magnitude b. second magnitude c. fifth magnitude d. sixth magnitude
first magnitude
Your answer to question 24 means that Earth turns a. from the west toward the east b. from the east toward the west c. at the same rate it is moving in its orbit d. not at all
from the west toward the east
The basic unit of the universe is a a. star b. solar system c. galaxy d. constellation
galaxy
groups of billions and billions of stars that form the basic unit of the universe.
galaxy
A galaxy is held together by a. stellar dust b. gravitational attraction c. electronic attractions d. pulsating stars
gravitational attraction
the distance that light travels through empty space in one year, approximately 9.5 x 10^12 km (5.86 3 10^12 mi)
light-year
The total amount of energy radiated from the surface of a star into space each second is a. stellar radiation b. luminosity c. convection d. dispersion
luminosity
the total amount of energy radiated into space each second from the surface of a star
luminosity
Where does our sun belong based on the Hertzsprung-Russell classification of stars? a. main sequence b. red giant c. white dwarf d. cepheid variable
main sequence
normal, mature stars that use their nuclear fuel at a steady rate; stars on the Hertzsprung-Russell diagram in a narrow band that runs from the top left to the lower right
main sequence stars
a point directly above the north pole of the earth; the point above the north pole on the celestial sphere.
north celestial pole
In the process of less massive star growing old, its outer layer is sometimes blown off into space, forming a a. white dwarf b. black hole c. Cepheid variable d. planetary nebula
planetary nebula
A rapidly rotating neutron star with a strong magnetic field is a a. neutron star b. pulsar c. supernova d. black hole
pulsar
Initial evidence that supports the big bang theory of the creation of the universe came from a. experiments conducted by shuttle astronauts b. unmanned space probes c. redshift calculations by Edwin Hubble d. data from the Hubble Space Telescope
redshift calculations by Edwin Hubble
Stars twinkle and planets do not twinkle because a. planets shine by reflected light, and stars produce their own light b. all stars are pulsing light sources c. stars appear as point sources of light, and planets are disk sources
stars appear as point sources of light, and planets are disk sources
All of the elements that are more massive that the element iron were formed in a a. nova b. white dwarf c. supernova d. black hole
supernova
The Crab Nebula is what remains of a a. pulsar b. supernova c. black hole d. constellation
supernova
Whether the universe will continue to expand or will collapse back into another big bang seems to depend on what property of the universe? a. the density of matter in the universe b. the age of galaxies compared to the age of their stars c. the availability of gases and dust between the galaxies d. the number of black holes
the density of matter in the universe
The diameter of the Milky Way is about a. 500 light-years b. 50,000 light-years c. 100,000 light-years d. 200 million light-years
100,000 light years
Microwave radiation from space, measurements of the expansion of the universe, the age of the oldest stars in the milky way galaxy, and ratios of radioactive decay products all indicate that the universe is about how old? a. 6000 years b. 4.5 billion years c. 13.7 billion years d. 100,000 billion years.
13.7 Billion years
Approximately how old is the universe? a. 5 billion years b. 10 billion years c. 14 billion years d. 25 billion years
14 billion years
How much matter is converted to energy in 20 years? if 1 year is 1.4 x 10^17kg
2.8 x 10^18 kg
How many degrees of arc above the horizon is a star located halfway between directly over your head and the horizon? a. 45 degrees b. 90 degrees c. 135 degrees d. 180 degrees
45 degrees
Which of the following colors of starlight is from the hottest star? a. Blue-white b. Red c. Orange-red d. Yellow
Blue-White
Evidence that points to the existence of black holes was provided by a. mauna loa observatory b. Hubble space telescope c. radio astronomy d. LGM
Hubble Space Telescope
The temperature-luminosity graph used to classify stars was developed by a. Russell b. Hubble c. Hubble and Russell d. Hertzsprung and Russell
Hertzsprung and Russell
diagram to classify stars with a temperature-luminosity graph
Hertzsprung-Russell Diagram
You are studying physical science in Tennessee. Where are you located with respect to the celestial equator? a. North of the celestial equator b. South of the celestial equator c. On the celestial equator d. East of the celestial equator
North of the celestial equator
How much of the celestial meridian can you see from any given point on the surface of Earth? a. One-fourth b. One-half c. Three-fourths
One-Half
Which of following stars would have the longer life span? a. the less massive b. between the more massive and less massive c. the more massive d. all have the same life span
The less massive
Stars that are faint, very dense, white hot, and close to the end of their lifetime are a. red giant stars b. novas. c. white dwarf stars d. cepheid variables
White dwarf stars
The angle that you see Polaris, the North Star, above the horizon is about the same as your approximate location on a. the celestial meridian b. the celestial equator c. a northern longitude d. a northern latitude
a northern latitude
A bright blue star on the main sequence is probably a. very massive b. less massive c. between the more massive and the less massive
very massive
