CH 16
The Sun's surface vibrates from internal pressure waves reflecting off of the photosphere and passing through the solar interior. Since these waves penetrate deep inside the Sun, an analysis of the vibrations these waves cause at the surface can reveal unique information about the solar interior. The science of studying the vibrations on the surface of the Sun is known as helioseismology. If you were a helioseismologist, which of the following observational methods could you use to obtain information about the solar interior?
-Doppler shifts in solar spectral lines -Determine wavelengths and frequencies of individual pressure waves
Which of the following must occur for a star's core to reach equilibrium after an initial change in fusion rate?
-If the fusion rate initially increases, then the core expands. -If the fusion rate initially decreases, then the core contracts
If the last peak in sunspot numbers occurred in 2013, then the next solar max is ________.
2024
The Sun has sufficient hydrogen to continue fusing into helium for how much longer?
5 billion years
In which of the following layer(s) of the Sun does nuclear fusion occur?
Core
Layers of sun: Density
Core Radiation zone convection zone photosphere chromosphere corona
Layers of the Sun
Corona Chromosphere photosphere convection zone radiation zone core
Layers of the sun: Temperature
Highest->Lowest Core radiation zone convection zone photosphere
Layers of the sun: Pressure
Highest->lowest core radiation zone convection zone photosphere
The helium produced from the fusion of hydrogen has less mass than the hydrogen that goes into its formation. What happens to the missing matter?
It is converted into energy.
The density of the Sun is most similar to that of a) a comet. b) Jupiter. c) the Earth. d) interstellar gas. e) an asteroid.
Jupiter
The Sun spins on its axis roughly once each
Month
Which of the following layers of the Sun can be seen with some type of telescope? Consider all forms of light, but do not consider neutrinos or other particles.
Photosphere corona chromosphere w UV and x-ray telescopes
Solar Maximum Vs Solar Minimum
Solar Maximum: -occurs about every 11 years -solar flares are most common -orbiting satellites are most at risk -auroras are most likely in Earth's skies -sunspots are most numerous on the Sun Solar Minimum: -occurs about 5 to 6 years after solar maximum
What would happen if the fusion rate in the core of the Sun were increased but the core could not expand?
The Sun's core would start to heat up, and the rate of fusion would increase even more.
The time between successive sunspot maxima is about
a decade
A neutrino can escape from the solar core within minutes; how long does it take a photon to escape? a) minutes b) hours c) months d) hundreds of years e) about a million years
about a million years
Most of the Sun's ultraviolet light is emitted from the narrow layer called the ________ where temperature increases with altitude.
chromosphere
Energy moves through the Sun's ________ by means of the rising of hot gas and falling of cooler gas.
convection zone
Nuclear fusion of hydrogen into helium occurs in the ______.
core
We can see the Sun's _________ most easily during total solar eclipses.
corona
The standard solar model: two key parameters used are temperature and density. IF sun is in hydrostatic equilibrium, the model predicts that the sun's temperature should _______ and its density should _______ from its core to its surface
decrease, decrease
The "solar neutrino problem" refers to the fact that astronomers a) cannot explain how the Sun is stable. b) detect only one-third the number of neutrinos expected by theory. c) cannot detect neutrinos easily. d) are unable to explain how neutrinos oscillate between other types. e) cannot create controlled fusion reactions on Earth.
detect only one-third the number of neutrinos expected by theory.
The number of sunspots and solar activity in general peaks a) every 27 days, the apparent rotation period of the Sun's surface. b) once a year. c) every 51⁄2 years. d) every 11 years. e) approximately every 100 years.
every 11 years
According to the standard model of the Sun, as the distance from the center increases, the density decreases
faster than the temperature decreases.
As we move to greater and greater distances above the solar photosphere, the temperature in the Sun's atmosphere
first decreases and then increases
The primary source of the Sun's energy is
fusion of light nuclei to make heavier ones
Which of the following surface features provide evidence for solar convection?
granulation and supergranulation
The Sun is stable as a star because a) gravity balances forces from pressure. b) the rate of fusion equals the rate of fission. c) radiation and convection balance. d) mass is converted into energy. e) fusion doesn't depend on temperature.
gravity balances forces from pressure.
The proton-proton cycle involves what kind of fusion process? a) carbon (C) into oxygen (O) b) helium (He) into carbon (C) c) hydrogen (H) into helium (He) d) neon (Ne) into silicon (Si) e) oxygen (O) into iron (Fe)
hydrogen to helium
Which of the following changes would cause the fusion rate in the Sun's core to increase?
increase in core temperature decrease in core radius
Nearly all the visible light we see from the Sun is emitted from the __________. a) core b) corona c) photosphere d) chromosphere e) convection zone
photosphere
The observable ________ is a thin layer in which the solar material becomes suddenly much more opaque as we look deeper into the Sun.
photosphere
The ____________ is the layer of the Sun between its core and convection zone.
radiation zone
What is probably responsible for the increase in temperature of the corona far from the Sun's surface? a) a higher rate of fusion b) the Sun's magnetism c) higher radiation pressures d) absorption of X rays e) convection currents
the Sun's magnetism (the Sun's magnetic field acts like a pump to increase the speeds of particles in the upper corona.)
