Fall Exam Review

Question 1

What process creates energy in the sun?

Answer 1

fusion of hydrogen into helium in the Sun’s core generates the Sun’s energy.

Question 2

Why does the Sun’s size remain stable?

Answer 2

it is in gravitational equilibrium (the outward pressure of hot gas balances the inward force of gravity at every point within the Sun.)

Question 3

How did the Sun become hot enough for fusion in the first place?

Answer 3

As the Sun was forming, it grew hotter as it shrank in size because gravitational contraction converted gravitational potential energy into thermal energy. Gravitational contraction continued to shrink the Sun and to raise its central temperature until the core became hot and dense enough for nuclear fusion.

Question 4

at the centre of the Sun, fusion converts hydrogen into?

Answer 4

helium, energy, and neutrinos.

Question 5

the phase of matter in the Sun is?

Answer 5

plasma.

Question 6

which is closest to the temperature of the core of the Sun?

Answer 6

10 million K.

Question 7

how does the sun generate energy today?

Answer 7

nuclear fusion.

Question 8

suppose you put two protons near each other. Because of the electromagnetic force, the two protons will?

Answer 8

repel each other.

Question 9

how do we know what goes on under the surface of the sun?

Answer 9

astronomers create mathematical models that use the laws of physics, the Sun’s observed composition and mass, and computers to predict internal conditions, also by measuring dopplers shifts, we observe vibrations of the Sun’s surface that are created deep within the sun.

Question 10

the light radiated from the Sun’s surface reaches earth in about __ minutes, but the energy of that light was released by fusion in the solar core about?

Answer 10

8 minutes, and about a million years ago.

Question 11

based on its surface temperature of 5,800 K, what color are most of the photons that leave the sun’s surface?

Answer 11

green.

Question 12

how does light tell us what things are made of?

Answer 12

every kind of atom, ion, and molecule produces a unique set of spectral lines.

Question 13

how does light tell us the temperatures of stars?

Answer 13

we can determine temperature from the spectrum of thermal radiation.

Question 14

what types of light spectra can we observe?

Answer 14

thermal radiation spectrum - looks like rainbow of light.
absorption line spectrum - specific colors are missing from the rainbow.
emission line spectrum - see light only of a specific color.

Question 15

what is an atom made of?

Answer 15

protons, neutrons, electrons.

Question 16

what do astronomers learn from spectra?

Answer 16

temperature of a hot body (continuous spectrum)
elemental and molecular composition of stars/hot clouds or absorbing gas/dust clouds (emission and absorption spectrum)
relative velocity of approach or recession (doppler shift)

Question 17

why is the sky blue during daytime?

Answer 17

small particles scatter blue light more effectively at the position of the sun. Same with sunsets.

Question 18

what is Stefan-Boltzmann law?

Answer 18

The higher the temperature of an object, the higher the total amount of energy radiated.

Question 19

why don’t we glow in the dark?

Answer 19

People only emit light that is invisible to our eyes.

Question 20

do people emit light?

Answer 20

Yes but it is invisible to our eyes.

Question 21

which is hotter? blue star or red star?

Answer 21

blue.

Question 22

Dopplers shift tells us only about?

Answer 22

the part of an object’s motion toward or away from us.

Question 23

for the dopplers shift, what does it mean for a star to be full speed?

Answer 23

moving directly away from us.

Question 24

for the dopplers shift, what does it measure if the star is moving across our line of sight (going up or down) but not toward or away from us?

Answer 24

measures no speed at all.

Question 25

the sun is powered by?

Answer 25

nuclear energy.

Question 26

how big is the sun?

Answer 26

about 100 times the diameter of earth.

Question 27

the inner parts of the sun are?

Answer 27

core, radiative zone, convective zone.

Question 28

the outer parts of the sun are?

Answer 28

photosphere, chromosphere, corona.

Question 29

what is one of the basic properties used to characterize stars?

Answer 29

luminosity, it is defined as the total energy radiated by a star each second, at all wavelengths.

Question 30

stars are classified according to their ____.

Answer 30

spectra, with different spectral types generally corresponding to different temperatures.

Question 31

which of these is not a form of electromagnetic radiation?

Answer 31

sound, it comes from pressure waves; all other types of EM radiation of different wavelengths.

Question 32

the distance between successive wave crests defines the ____ of a wave.

Answer 32

wavelength, light can range from short-wavelengths (gamma rays) to long-wavelength (radio waves).

Question 33

what are the major layers of the sun, from inside out?

Answer 33

core, radiation zone, convection zone, photosphere, chromosphere, and corona.

Question 34

what do we mean by the “surface” of the sun?

Answer 34

we consider the photosphere to be the surface of the sun because light can pass through the photosphere but cannot escape from deeper inside the sun. Thus, photographs of visible light from the sun show us what the photosphere looks like.

Question 35

what is the sun made of?

Answer 35

it is made almost entirely (98%) of hydrogen and helium.

Question 36

what are the spectral types?

Answer 36

O,B,A,F,G,K,M. In order from hottest to coolest.

Oh Boy, A F Grade Kills Me.

Question 37

where does the number come from after the spectral type? e.g. A0

Answer 37

spectral types are subdivided into numbered categories, the hottest A stars are type A0 and the coolest A star is type A9. A9 is slightly hotter than F0.

Question 38

what is the main factor in determining a star’s spectral type?

Answer 38

its surface temperature. it doesn’t depend on its composition.

Question 39

what is a Hertzsprung-Russell diagram? (HR)

Answer 39

an H-R diagram plots stars according to their surface temperatures and luminosities.

Question 40

why is a star’s mass its most important property?

Answer 40

a star’s mass at birth determines virtually everything that happens to it throughout its life.

Question 41

how do we classify stars?

Answer 41

by their spectral type and luminosity class.

Question 42

what does the luminosity class tell us?

Answer 42

how much light it puts out.

Question 43

main-sequence star: high mass?

Answer 43

high luminosity, short-lived, large radius, blue.

Question 44

main sequence star: low mass?

Answer 44

low luminosity, long-lived, small radius, red.

Question 45

sunspots have how many year period?

Answer 45

11 year.

Question 46

sunspots first appear at?

Answer 46

mid-latitudes at solar minimum.

Question 47

how does solar activity affect the earth’s climate?

Answer 47

it is not clear, we do not know.

Question 48

what is the surface of the sun like?

Answer 48

the photosphere is composed of hot, churning gases.

Question 49

does the sun rotate?

Answer 49

the suns surface rotates differentially.

Question 50

what makes the sun shine?

Answer 50

thermonuclear fusion at the suns core is the source of the suns energy.

Question 51

how can we learn about the lives of stars, which last millions to billions of years?

Answer 51

by taking observations of many stars, we can study stars in many phases of life, just like humans.

Question 52

what two basic physical properties do astronomers use to classify stars?

Answer 52

stars are classified by their luminosity and surface temperature.

Question 53

what is luminosity and how do we determine it?

Answer 53

luminosity is the total power that it radiates into space.

can be calculated from a star’s measured apparent brightness and distance, using the luminosity-distance formula.

Question 54

how do we measure the distance to nearby stars?

Answer 54

the distance to nearby stars can be measured by parallax, the shift in the apparent position of a star with respect to more distant stars as the earth moves around the sun.

Question 55

what two forces are balanced in what we call gravitational equilibrium?

Answer 55

outward pressure and gravity.

Question 56

what is the sun made up of? (percentage wise)

Answer 56

70% hydrogen, 28% helium and 2% other elements.

Question 57

which layer of the sun of we normally see?

Answer 57

photosphere.

Question 58

what are the appropriate units for the suns luminosity?

Answer 58

watts.

Question 59

what observations characterize solar maximum?

Answer 59

we see many sunspots on the surface of the sun.

Question 60

what is the average temperature of the surface of the sun?

Answer 60

6,000 K.

Question 61

the spectral sequence sorts stars according to?

Answer 61

surface temperature.

Question 62

on a H-R diagram, where would we find stars that have the largest radii?

Answer 62

upper right.

Question 63

on a H-R diagram, where would we find white dwarfs?

Answer 63

lower left.