Test 2 Astronomy
the part of the Sun from which the light comes that we see when we look at the Sun with our eyes
The Sun's photosphere is
the oldest ages we have measured for any bodies in the solar system
The ages of stony meteorites have been measured to be roughly equal to:
plasma
The material inside the Sun is in the form of a
hydrogen
The most common element in the Sun is
the continuing impacts on a growing protoplanet eventually melted the entire body
The reason that worlds like the Earth are differentiated is that
white dwarf
When a single star with a mass equal to the Sun dies, it will become a
corona
(of the Sun) is the outer (hot) atmosphere of the Sun
those in the outer solar system were in a place where ice, not just rock, condensed and thus could grow larger
A key difference between the protoplanets that formed in the outer solar system and those that formed in the inner solar system was that
the nucleus of an atom
A neutron star is as dense as
those that are the largest (and retain heat the best)
Among solid worlds, which type of world is most likely to have significant geological activity?
the O and B type stars
As a cluster of stars begins to age, which type of star in the cluster will move off the main sequence of the H-R diagram first?
from the fusion of hydrogen into helium in a shell around the core
As a star becomes a giant, its outer layers are expanding. Where does the energy for expanding these layers come from?
is made entirely of hot gas
As astronomers have learned more about the structure of the Sun, they have found that it
by noting the wind's effects on the tails of comets
Astronomers first detected the presence of a wind of particles coming from the Sun by
The number of sunspots gets larger and smaller over the course of 11 years
Astronomers have concluded that the Sun's activity varies in an 11-year cycle. Which of the following statements about this cycle is TRUE: - Every 11 years sunspots completely cover the Sun, making its surface much darker - The number of sunspots gets larger and smaller over the course of 11 years - When sunspots are at a minimum, we get the largest number of flares and prominences - The Sun's activity cycle shows absolutely no connection to its magnetic field - The Sun's activity cycle is directly connected to the number of earthquakes at the continental plate boundaries on Earth
Such fast-spinning pulsars have companion stars near them, which dump material on the pulsar and that spins it faster and faster
Astronomers have discovered pulsars spinning 500 x per second or more. How do astronomers think pulsars got to be spinning so outrageously fast?
- historical records of the number of sunspots seen on the Sun - measuring the amount of radioactive carbon in tree rings - historical records of auroral activity
Astronomers have found that the level of the Sun's activity varies over the centuries. How did they come to realize that this is so:
neutrinos
Astronomers have long realized that supernovae -- when they explode -- give off an enormous amount of light. But observations of Supernova 1987A (in the Large Magellanic Cloud) revealed that the supernova gives off even more energy in another form? That form is:
temperature
Astronomers now believe that the differences in composition among the planets reflect what characteristic in the early solar system
Venus
One of the best ways to learn more about a world is to have samples from its surface to analyze in our laboratories. From which of the following worlds do we NOT yet have a sample to analyze here on Earth?
hot Jupiters formed further out in their star system, and then migrated inward somehow
One of the most perplexing issues raised by the discovery of thousands of exoplanets is the existence of "hot Jupiters" - planets with the masses and compositions of Jupiter, but orbiting closer to their stars than Mercury does in our solar system. What is our best idea currently about how such "hot Jupiters" came to be?
the Antarctic
One region on Earth that has become a rich source of new meteorites in recent decades (including the meteorite from Mars that got famous because some scientists claimed they had found evidence for the building blocks of life on Mars) is:
in the asteroid and Kuiper belts
Some of the early planetesimals that formed the solar system still survive today. Where would you find such planetesimals?
they are cooler than the material around them (although still very hot compared to Earth temperatures)
Sunspots are darker than the regions of the Sun around them because
chromosphere
the part of the solar atmosphere that lies immediately above the photospheric layers
differential rotation
the phenomenon that occurs when different parts of a rotating object rotate at different rates at different latitudes
transition region
the region in the Sun's atmosphere where the temperature rises very rapidly from the relatively low temperatures that characterize the chromosphere to the high temperatures of the corona
disks around other stars which show evidence of gaps where planets may be forming
One of the best proofs that our theory of how the solar system formed is correct is that astronomers now observe
neutron star
a compact object of extremely high density composed almost entirely of neutrons
open cluster
a comparatively loose cluster of stars, containing from a few dozen to a few thousand members, located in the spiral arms or disk of our Galaxy; sometimes referred to as a galactic cluster
solar wind
a flow of hot, charged particles leaving the Sun
plasma
a hot ionized gas
prominence
a large, bright, gaseous feature that appears above the surface of the Sun and extends into the corona
sunspot
a large, dark feature seen on the surface of the Sun caused by increased magnetic activity
zero-age main sequence
a line denoting the main sequence on the H-R diagram for a system of stars that have completed their contraction from interstellar matter and are now deriving all their energy from nuclear reactions, but whose chemical composition has not yet been altered substantially by nuclear reactions
aurora
light radiated by atoms and ions in the ionosphere excited by charged particles from the Sun, mostly seen in the magnetic polar regions
granulation
the rice-grain-like structure of the solar photosphere; produced by upwelling currents of gas that are slightly hotter, and therefore brighter, than the surrounding regions, which are flowing downward into the Sun
sunspot cycle
the semiregular 11-year period with which the frequency of sunspots fluctuates
Helioseismology
the study of pulsations or oscillations of the Sun in order to determine the characteristics of the solar interior
Chandrasekhar limit
the upper limit to the mass of a white dwarf (equals 1.4 times the mass of the Sun)
photosphere
the region of the solar (or stellar) atmosphere from which continuous radiation escapes into space
meteor shower
Occurs when many meteors appear to radiate from one point in the sky; produced when Earth passes through a cometary dust stream
CME
a solar flare in which immense quantities of coronal material—mainly protons and electrons—is ejected at high speeds (500-1000 kilometers per second) into interplanetary space
Venus
Which of the following worlds does NOT have a ring (as far as we know)?
the core
Which part of the Sun has the greatest density?
corona
Which part of the Sun's atmosphere has the lowest density (number of atoms per unit volume)?
corona
Which part of the Sun's atmosphere is the hottest?
The Sun rotates at different rates at different latitudes on the Sun
Which statement about the Sun's rotation is TRUE?
photosphere
You are out on the beach, enjoying the warm sunshine with friends. As you glance up at the Sun (only briefly we hope), the part of the Sun that you can see directly is called its:
a supernova explosion
Elements heavier than iron can be created during:
granulation
Which of the following is not part of some active regions on the Sun?
in a globular cluster
A science fiction writer needs an environment for her latest story where stars are as crowded together as possible. Which of the following would be a good place to locate her story?
a globular star cluster
A type of star cluster that contains mostly very old stars is
smaller in diameter
A white dwarf, compared to a main sequence star with the same mass, would always be:
none of the above
After it experiences a "helium flash" a star like the Sun will have a brief period of stability, fusing helium into carbon (and sometimes oxygen). During this brief stable stage, the star
explodes outward as a supernova
After the core of a massive star becomes a neutron star, the rest of the star's material
the solar nebula
Astronomers call the vast, rotating cloud of vapor and dust from which the solar system formed:
about 100 million years (0.1 billion)
At the beginning of the solar system's history, a ready supply of proto-planets or mini-planets crashed into the developing planets and each other - something astronomers call the "era of giant impacts." How long do astronomers estimate this era lasted?
causing huge cyclones around the equator of the Earth
Coronal Mass Ejections from the Sun have many serious effects on or near the Earth. Which of the following is NOT one of these effects? - disrupting the electronics of satellites - heating the ionosphere and thus expanding the extent of our planet's atmosphere - causing power surges and power outages in parts of the Earth near the poles - causing huge cyclones around the equator of the Earth - exposing astronauts and airplane passengers to increased amounts of radiation
the larger the world, the slower it cools off and the more it will keep its internal heat
For solid rocky worlds, a general rule is:
They measure the amount still left of radioactive materials in the meteorite, and how much has turned into decay products
How can astronomers measure the age of a meteorite that fell from the skies?
the measure the Zeeman effect (the splitting of spectral lines)
How do astronomers know how strong the magnetic field of the Sun is?
radioactive dating of the primitive meteorites indicates they have that age (since they are left-over building blocks of the solar system)
How do astronomers know that the age of the solar system is about 4.5 billion years old?
we take an absorption line spectrum of the Sun, and the absorption lines tell us what elements are present in the outer layers
How do astronomers know what the outer layers of the Sun are made of?
its mass
How long a main sequence star remains on the main sequence in the H-R diagram depends most strongly on
planetary nebulae expand rapidly and soon become too faint to be visible
If most stars are low-mass stars, and low-mass stars typically eject a planetary nebula, why then do astronomers see relatively few planetary nebulae in the sky?
heavier elements are made in the cores of significantly more massive stars than the Sun, which can get hotter in the middle
If stars with masses like our Sun's cannot make elements heavier than oxygen, where are heavier elements like silicon produced in the universe?
the first generation stars contain little or no elements heavier than helium
If we look back to the first generation of stars made when the Galaxy was first forming, how do they differ from stars being formed today?
it was fused from 3 helium nuclei in the core of a red giant star long before the Sun existed
If you trace back the history of a carbon atom in your little finger through all of cosmic history, where did this atom most likely originate?
the transfer of so much mass from a companion star that a white dwarf goes "over the limit" and collapses, causing an enormous amount of sudden fusion
In a Type Ia supernova, the cause of the violent outburst is:
neutrino
In a collapsing star of high mass, when electrons and protons are squeezed together with enormous force, they turn into a neutron and a:
ultraviolet radiation from the collapsing hot star at the center
In a planetary nebula, the shell of expelled material is glowing intensely. What is the main source of energy for this glow?
during total eclipses of the Sun
The Sun's chromosphere and corona were discovered
almost all the hydrogen in its core that was hot enough for fusion has been turned into helium
The event in the life of a star that begins its expansion into a giant is
measuring changes in the radial velocity (Doppler shift) of the star caused by the pull of orbiting planets
The first technique that allowed astronomers to find exoplanets involved:
iron
The most stable (tightly bound) atomic nucleus in the universe is:
coronal holes
The ten million tons of particles that escape the Sun each year in the form of the solar wind get out mainly through regions called
minor planet (asteroid)
Three kinds of worlds are round in our solar system. Which of the following is NOT a type of world that is typically round?
the fusion of iron
What incident in a massive star's life sets off (begins) the very quick chain of events that leads to a supernova explosion?
the Sun's magnetic field interacting with the charged particles that make up the atmosphere
What mechanisms do astronomers believe is responsible for making the Sun's outer atmosphere so much hotter than its photosphere?
their mass grows significantly as they incorporate planets and interstellar matter near the star
When stars become giants, which of the following does NOT usually happen?
the neutron star is disrupted and tears apart into many pieces
Which of the following is NOT a result of supernova explosions?
study the oscillations (pulsations) of the Sun's surface
Which of the following is a way for astronomers to learn more about the interior of the Sun?
that all the planets have solid surfaces on which we can see impact craters
Which of the following is not a characteristic that worlds in our solar system have in common: - that the planets all revolve around the Sun in the same direction - that most of the planets spin in the same direction that they revolve - that many of the larger moons go around their planets in the same direction - that the planets' orbits lie in roughly the same plane - that all the planets have solid surfaces on which we can see impact craters
red giant
Which of the following is the largest (in diameter)?
neutron star
Which of the following is the smallest? - white dwarf - neutron star - red giant - main sequence star - protostar
the plane of the orbit of Pluto
Which of the following pieces of observational evidence does our modern "solar nebula" theory of the formation of the solar system NOT explain directly?
spending a long time on the main sequence expanding to become red giant eventually fusing helium into carbon giving off a planetary nebula
Which of the following stages will our own Sun go through in the future:
The photosphere is significantly hotter than all the layers of the Sun beneath it (further inward)
Which of the following statements about the Sun's photosphere is NOT TRUE?
as the star is dying, a considerable part of its mass will be lost into space
Which of the following statements about the life of a star with a mass like the Sun is correct? - before the star dies, it will fuse dozens of elements in its core - as the star is dying, a considerable part of its mass will be lost into space - after the main sequence stage, there is no further fusion of hydrogen anywhere in the star - at the end of its life, the star will explode as a supernova - the core of this star will be too massive to form a white dwarf
astronomers think that flares are connected with sudden changes in the magnetic field of the Sun
Which of the following statements about the violent events on the Sun called flares is FALSE?
K
Which of the following types of stars will spend the longest time (the greatest number of years) on the main sequence?
main sequence turnoff
a location in the H-R diagram where stars begin to leave the main sequence
association
a loose group of young stars whose spectral types, motions, and positions in the sky indicate a common origin
stony meteorite
a meteorite composed mostly of stony material, either primitive or differentiated
iron meteorite
a meteorite composed primarily of iron and nickel
helium flash
a nearly explosive ignition of helium in the triple-alpha process in the dense core of a red giant star
triple-alpha process
a nuclear reaction by which three helium nuclei are built up (fused) into one carbon nucleus
Maunder Minimum
a period during the eighteenth century when the number of sunspots seen throughout the solar cycle was unusually low
exoplanet
a planet orbiting a star other than our Sun
meteorite
a portion of a meteor that survives passage through the atmosphere and strikes the ground
millisecond pulsar
a pulsar that rotates so quickly that it can give off hundreds of pulses per second (and its period is therefore measured in milliseconds)
coronal hole
a region in the Sun's outer atmosphere that appears darker because there is less hot gas there
planetary nebula
a shell of gas ejected by and expanding away from an extremely hot low-mass star that is nearing the end of its life (the nebulae glow because of the ultra-violet energy of the central star)
meteor
a small piece of solid matter that enters Earth's atmosphere and burns up, popularly called a shooting star because it is seen as a small flash of light
type 2 supernova
a stellar explosion produced at the end point of the evolution of stars whose mass exceeds roughly 10 times the mass of the Sun
solar flare
a sudden and temporary outburst of electromagnetic radiation from an extended region of the Sun's surface
stony-iron meteorite
a type of differentiated meteorite that is a blend of nickel-iron and silicate materials
pulsar
a variable radio source of small physical size that emits very rapid radio pulses in very regular periods that range from fractions of a second to several seconds; now understood to be a rotating, magnetic neutron star that is energetic enough to produce a detectable beam of radiation and particles
active region
an area on the Sun where magnetic fields are concentrated; sunspots, prominences, flares, and CMEs all tend to occur here
globular cluster
one of about 150 large, spherical star clusters (each with hundreds of thousands of stars) that form a system of clusters in the center of our Galaxy
nucleosynthesis
the building up of heavy elements from lighter ones by nuclear fusion
nova
the cataclysmic explosion produced in a binary system, temporarily increasing its luminosity by hundreds to thousands of times
accretion
the gradual accumulation of mass, as by a planet forming from colliding particles in the solar nebula