Chapter 7

Question 1

Based on the solar atmosphere and outer layers of the sun, select all of the correct statements from the following list.

The temperature of the corona is millions of degrees.
The photosphere is the outermost layer of the sun.
Spicules and filaments are found in the solar corona.
The solar wind is ionized gas streaming away from the sun.
The chromosphere is the visible surface of the sun.
Helioseismology is the study of “sunquakes.”
Granulation is caused by convection.

Answer 1

The temperature of the corona is millions of degrees.

The solar wind is ionized gas streaming away from the sun.

Granulation is caused by convection.

Question 2

Based on nuclear fusion in the sun, select all of the correct statements from the following list.
Neutrinos oscillate among three different types.
For nuclei to combine, temperatures must be very high.
Due to the required temperatures, fusion occurs only in the core of the sun.
During the proton-proton chain, helium is made into hydrogen.
Gamma rays produced by fusion make it to the solar surface much faster than neutrinos.
The number of neutrinos observed to be coming from the sun is the amount we expect.
Since we observed light from the photosphere, some fusion must be occurring there.

Answer 2

Neutrinos oscillate among three different types.

For nuclei to combine, temperatures must be very high.

Due to the required temperatures, fusion occurs only in the core of the sun.

Question 3

The radius of the sun is 0.7 million km. What percentage of the radius is taken up by the chromosphere which is about 2,100 km deep?

Answer 3

0.3%

Question 4

What evidence do we have that the granulation seen on the sun’s surface is caused by convection?

Answer 4

The bright centers of granules are hotter than their dark boundaries and Doppler measurements indicate that the centers are rising and edges are sinking.

Question 5

Which layer of the sun’s atmosphere contains the cooler low-density gas responsible for absorption lines in the sun’s spectrum?

Answer 5

photosphere

Question 6

Which of the following is true about granules and supergranules?

Answer 6

They are both due to convection cells in layers below.

Question 7

This diagram explains the structure of solar granules. Why is the center of a granule brighter than its edges?

Answer 7

The temperature is higher at the center.

Question 8

What is revealed by observing the sun at a very narrow range of wavelengths within the 656-nm hydrogen alpha line?

Answer 8

the structure of the chromosphere

Question 9

The sun’s atmospheric layers are all less dense than its interior. Based on this figure, which layer of the sun is responsible for the absorption lines in the solar spectrum?

Answer 9

photosphere

Question 10

What are the general trends in temperature and density from the photosphere to the chromosphere to the corona?

Answer 10

The temperature increases and density decreases.

Question 11

What physical property of the sun is responsible for “limb darkening”?

Answer 11

The lower photosphere is hotter than the upper photosphere.

Question 12

The spectrum of the corona has bright spectral lines of highly ionized elements. What does this reveal?

Answer 12

The corona is a very hot, low-density gas.

Question 13

What heats the chromosphere and corona to high temperatures?

Answer 13

fluctuating magnetic fields from below that transport energy outward

Question 14

How are astronomers able to explore the layers of the sun below the photosphere?

Answer 14

They do this by measuring and modeling the modes of vibration of the sun’s surface.

Question 15

What is responsible for the sun’s surface and atmospheric activity?

Answer 15

the sun’s magnetic field

Question 16

Each of these frames shows the migration (due mostly to solar rotation) of sunspots across the face of the sun with the earliest sketch at the top. If the north pole of the sun is at the top of each frame, in which direction does the sun rotate?

Answer 16

counterclockwise when viewed from above the sun’s north pole

Question 17

What is the source of the sun’s changing magnetic field?

Answer 17

the differential rotation of the sun and convection beneath the photosphere

Question 18

What evidence do we have that sunspots are magnetic?

Answer 18

The spectral lines of sunspots are split by the Zeeman Effect and observations at far ultraviolet show material arched above the sun’s surface from one sunspot to another.

Question 19

What does a Maunder butterfly diagram show?

Answer 19

During the 11-year sunspot cycle, the spots begin at high latitude and then form progressively closer to the equator.

Question 20

How constant is the solar constant? That is, by how much has the solar constant of 1,360 joules per square meter per second been observed to vary over days or weeks?

Answer 20

about 0.1%

Question 21

How does the sun maintain its energy output?

Answer 21

fusion of hydrogen nuclei

Question 22

Why does nuclear fusion require high temperatures?

Answer 22

All of these choices are correct.

Question 23

Based on this figure, which atomic element has the greatest binding energy per nuclear particle?

Answer 23

iron

Question 24

What happens to the neutrinos that are produced in the proton-proton chain?

Answer 24

they head out of the sun at nearly the speed of light

Question 25

Which layer is considered the visible surface of the sun?

Answer 25

The discovery that neutrinos oscillate between three different types

Question 26

Which layer is considered the visible surface of the sun?

Answer 26

the photosphere

Question 27

Why can’t you see deeper into the photosphere?

Answer 27

The upper photosphere blocks the light from the deep photosphere.

Question 28

What type of energy transport is occurring just below the photosphere?

Answer 28

convection

Question 29

What is the evidence in the photosphere of the type of energy transport occurring beneath it?

Answer 29

granulation

Question 30

A certain type of energy transport (radiation, convection, or conduction) occurs just below the photosphere. What evidence is there for this energy transport?

Answer 30

These features are cooler at their edges and hotter at their centers.

Question 31

How are granules and supergranules similar?

Answer 31

Both are caused by convection.

Question 32

How are granules and supergranules different?

Answer 32

Supergranules are larger.

Question 33

How do astronomers detect structure in the chromosphere?

Answer 33

by observing certain absorption lines

Question 34

What is an image of the Sun’s chromosphere obtained by astronomers called?

Answer 34

a filtergram

Question 35

Which is an example of a structure in the chromosphere?

Answer 35

spicules and filaments

Question 36

What evidence can you give that the solar corona is at a very high temperature?

Answer 36

It emits X-rays.

Question 37

How do astronomers think the solar chromosphere and corona gets heated to their high temperatures?

Answer 37

Magnetic fields carry heat outward from lower layers.

Question 38

How are astronomers able to explore the layers of the solar interior?

Answer 38

from Doppler shifts on the solar surface

Question 39

Why does fusion require a high temperature?

Answer 39

to overcome the repulsive force between the protons

Question 40

Where in the sun does nuclear fusion occur?

Answer 40

the core

Question 41

Why does fusion occur in the layer(s) that it does?

Answer 41

Only the core is hot enough.

Question 42

How do astronomers detect neutrinos?

Answer 42

They observe nuclear reactions triggered by neutrino collisions in large underground pools of chemicals.

Question 43

Why are neutrinos so hard to detect?

Answer 43

All of these choices are reasons.

Question 44

What was the solar neutrino problem discovered in Dr. Davis’ observations?

Answer 44

We detect only about one-third of the solar neutrinos we expect to.

Question 45

How has the solar neutrino problem been solved?

Answer 45

The problem was solved by a combination of the theory of neutrino oscillations and better detectors.

Question 46

What is neutrino oscillation?

Answer 46

neutrinos changing between three different types

Question 47

Sunspots are which of the following?

Answer 47

All of these choices are correct.

Question 48

What evidence is there that sunspots are magnetic?

Answer 48

Their spectra show the Zeeman effect.

Question 49

An attempt to explain the sunspot cycle is which of the following?

Answer 49

the Babcock model

Question 50

The sunspot cycle could be explained by which of the following?

Answer 50

twisting and turning of the sun’s magnetic field with the sun’s rotation

Question 51

What is a solar prominence?

Answer 51

It is solar material from the chromosphere following the arches of the sun’s magnetic field.

Question 52

What does the spectrum of a solar prominence reveal?

Answer 52

that it is much cooler than its surroundings

Question 53

What does the shape of a solar prominence suggest?

Answer 53

that it is following the solar magnetic field

Question 54

What is a solar flare?

Answer 54

an eruption of solar material from the photosphere

Question 55

At what wavelengths is a solar flare observed?

Answer 55

All of these choices are correct.

Question 56

How can solar flares affect Earth?

Answer 56

They can cause auroras and communication blackouts.

Question 57

The image on the top is of a solar ________

Answer 57

filament

Question 58

The image on the bottom is of a solar ________

Answer 58

prominence

Question 59

What are the objects in these two images?

Answer 59

They are the same.

Question 60

The above image was recorded by which of the following?

Answer 60

the SOHO spacecraft

Question 61

The above image is of which of the following?

Answer 61

All of these choices are correct.

Question 62

Which of the lists below has the layers of the sun in order from the outermost to the innermost, from left to right?

Answer 62

corona, chromosphere, photosphere, core

Question 63

Which of the following layers of the solar atmosphere has the highest temperature?

Answer 63

corona

Question 64

Which of the lists below has the layers of the solar interior in order from the outermost to the innermost, from left to right?

Answer 64

convective zone, radiative zone, core

Question 65

Which of the following sections of the sun has the highest temperature?

Answer 65

core

Question 66

Solar Constant. Measurements by the Solar Maximum Mission satellite showed variations in the energy received from the sun of about 0.1 percent that lasted for days or weeks. Superimposed on that random variation is a long-term decrease of about 0.018 percent per year that has been confi rmed by observations made with other instruments. Use this information to find whether the solar constant is really constant. Is the solar constant really constant?

Answer 66

no