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Hr diagram lab answers

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H-R Diagram Lab


Part I: Introduction & Background


Around 1911 to 1913, a Dutch astronomer named Ejnar Hertzsprung and an American astronomer Henry Norris Russell created a diagram of stars plotted using only their luminosity and their spectral types. A star’s spectral type is determined by the absorption lines found in its spectrum. Hertzsprung and Russell noticed that the spectra were related to the stars’ color and temperature. Their diagram, named the Hertzsprung-Russell, or H-R, diagram in their honor, has been like a Rosetta Stone to stellar astronomy.


Table 1


Spectral Type


Color of Star


Temperature (K)


O


Blue


>25,000


B


Bluish-White


11,000 - 25,000


A


White


7,500 - 11,000


F


Yellow to White


6,000 - 7,500


G


Yellow


5,000 - 6,000


K


Orange


3,500 - 5000


M


Red


<3,500


The spectral types are subdivided into 10 subgroups which are labeled 0 through 9. Stars are further grouped by their luminosity, which is denoted by a Roman numeral.


Luminosity Classes


Ia


bright supergiant


Ib


supergiant


II


bright giants


III


giants


IV


subgiants


V


main sequence


VI


subdwarf


VII


white dwarf


The original H-R diagram plotted the star’s luminosity versus its spectral type. It only included stars within 100 pc of the Sun as that was the limit for determining distances using the helio-centric parallax method, the only known method at the time.


Since then, the H-R diagram has come to represent more than just the luminosity of a star versus its spectral type as it can be used to glean more information than just that. For one, luminosity and absolute magnitude are related. It is easy to see where different groups of stars, like main sequence, red giants, et cetera, are grouped on the diagram. Temperature and thus color information can also be found, as well as radius size. We can determine the mass of main sequence stars by using the diagram. We can also determine the distance to stars by plotting them on the H-R diagram. Other characteristics, including stellar densities, spectral lines, stellar life times, stellar interiors, types of nuclear processes taking place within the star, and interior temperatures can also be discovered.


Part II: Procedure


Section 1: Luminosity


Review/Go over solar luminosity as it relates to absolute magnitude. (See textbook section 15.1 Properties of Stars and Mathematical Insight 15.3.) Remember that for every change of 5 magnitudes, the luminosity changes by 100. So a star with an absolute magnitude of 10 will be 100 times more luminous than a star with an absolute magnitude of 15. (For a review on logarithms, see page 4 of this lab packet.) Note: the following graphing instructions are specifically for Excel 2003®; other products/Excel versions may have different instructions.


Section 2: Plotting


Once complete, begin section 3 of this lab. Plot all the stars listed in “Table 1: Bright Stars” on page 4 and “Table 2: Nearby Stars” on page 5 in the back of this lab packet. DO NOT label the stars with their names.


Step 1: Copy – Paste special – Unicode text the information from the two tables of stars into a spreadsheet. Make sure you have only 5 columns: Star, M(V), Log (L/Lsun), Temp, and Type. (You will notice that the tables were doubled-up to save space such that there are 10 columns per page.)


Step 2: Convert the Spectral class types into numbers, such that O is 0, B is 1, A is 2, et cetera. Highlight the data in the column labeled “Type.” Go to the “Edit” menu and choose “Replace.” In the pop-up search window, type “O” in the “Replace” line and “0.” in the “Replace with” line. (Don’t forget the period after the number!) Click on “Replace all.” Do this for all spectral class letters. Remove any stars from the lists which have two decimals or include the letter D.


Step 3: Graphing. First, highlight the data in the “Type” column and the “log (L/Lsun)” column for “Table 1: Bright Stars”. Click on the chart wizard icon in the menu bar. Select XY scatter and click next. Click on the Series tab on the top of the next window. Name this series “Bright Stars.” Be sure the cells within the “Type” column are set as your X values, and cells within the “log (L/Lsun)” column are set as your Y values.


Step 4: Now add a series. Name it “Nearby Stars” and again make sure the cells within the “Type” column for “Table 2: Nearby Stars” are set as your X values, and cells within the “log (L/Lsun)” column for “Table 2: Nearby Stars” are set as your Y values. (Define the x values by clicking on the little red, white and blue box. Now highlight the “Type” values only on the original sheet under the “Table 2: Nearby Stars” category. Define the y values by clicking on the little red, white and blue box. Now highlight the “log (L/Lsun)” values only on the original sheet under the “Table 2: Nearby Stars” category.) Click “Next.”


Step 5: Labeling. Click on the “Titles” tab on the next window. Give your chart the title “[your last name]’s H-R Diagram” Label the x values as “Spectral Type” and the y values as “log (L/Lsun).” In the Axes tab, both check boxes for Value (X) axis and Value (Y) axis should be checked. In the Gridlines tab, no check boxes should be checked. In the Legend tab, be sure the legend is shown. Choose where you would like it placed. In the Data Labels tab, but sure no check boxes are checked. Click Finished.


Step 6: Resize the graph such that it is more square-like and less rectangular-like. Extra credit: change the graph’s background color to approximately show the colors of the stars.


Step 7: Answer the questions at the end of the packet.


Section 3: Distance Calculations


Now you will use your H-R diagram to calculate the distance to some stars. Distance is calculated by using the distance modulus (m - M) and the distance formula,


image1.wmf

ú


û


ù


ê


ë


é


+


=


5


5)


M


-


(m


10


D


where everything within the square brackets is the exponent of 10. Calculate the distance to each of the stars listed below in the chart. SHOW ALL MATH WORK FOR CREDIT. (20 pts)


Spectroscopic parallax distance determination

Star


Apparent Magnitude (m)


Spectral Class


Absolute Magnitude (M)


m - M


Distance


Sirius


-1.4


A1


Spica


1.0


B1


Barnard's Star


9.5


M4 V


61 Cygni B


5.2


K5 V


CN Leo (Wolf 359)


13.5


M6 V


Tau Ceti


3.5


G8


Type answers into the table above. Go to 2 decimal places. Show work for Sirius “below.”


Work space


Logarithm Review


Note: In order to find L/LSun from the lists, you need to know about logarithms. Here is a quick reminder:


log(L/LSun)=x


means that


L/LSun=10x


Let's use a real number to work this out. Suppose that x=2, so that


log(L/LSun)=2


Then


L/LSun=102


and therefore


L/LSun=100


So the star is 100 times as luminous as the Sun.


Table 1: Bright Stars


Star


M(V)


log(L/Lsun)


Temp


Type


Star


M(V)


log(L/Lsun)


Temp


Type


Sun


4.8


0.00


5840


G2


Sirius A


1.4


1.34


9620


A1


Canopus


-3.1


3.15


7400


F0


Arcturus


-0.4


2.04


4590


K2


Alpha Centauri A


4.3


0.18


5840


G2


Vega


0.5


1.72


9900


A0


Capella


-0.6


2.15


5150


G8


Rigel


-7.2


4.76


12140


B8


Procyon A


2.6


0.88


6580


F5


Betelgeuse


-5.7


4.16


3200


M2


Achemar


-2.4


2.84


20500


B3


Hadar


-5.3


4.00


25500


B1


Altair


2.2


1.00


8060


A7


Aldebaran


-0.8


2.20


4130


K5


Spica


-3.4


3.24


25500


B1


Antares


-5.2


3.96


3340


M1


Fomalhaut


2.0


1.11


9060


A3


Pollux


1.0


1.52


4900


K0


Deneb


-7.2


4.76


9340


A2


Beta Crucis


-4.7


3.76


28000


B0


Regulus


-0.8


2.20


13260


B7


Acrux


-4.0


3.48


28000


B0


Adhara


-5.2


3.96


23000


B2


Shaula


-3.4


3.24


25500


B1


Bellatrix


-4.3


3.60


23000


B2


Castor


1.2


1.42


9620


A1


Gacrux


-0.5


2.10


3750


M3


Beta Centauri


-5.1


3.94


25500


B1


Alpha Centauri B


5.8


-0.42


4730


K1


Al Na'ir


-1.1


2.34


15550


B5


Miaplacidus


-0.6


2.14


9300


A0


Elnath


-1.6


2.54


12400


B7


Alnilam


-6.2


4.38


26950


B0


Mirfak


-4.6


3.74


7700


F5


Alnitak


-5.9


4.26


33600


O9


Dubhe


0.2


1.82


4900


K0


Alioth


0.4


1.74


9900


A0


Peacock


-2.3


2.82


20500


B3


Kaus Australis


-0.3


2.02


11000


B9


Theta Scorpii


-5.6


4.14


7400


F0


Atria


-0.1


1.94


4590


K2


Alkaid


-1.7


2.58


20500


B3


Alpha Crucis B


-3.3


3.22


20500


B3


Avior


-2.1


2.74


4900


K0


Delta Canis Majoris


-8.0


5.10


6100


F8


Alhena


0.0


1.90


9900


A0


Menkalinan


0.6


1.66


9340


A2


Polaris


-4.6


3.74


6100


F8


Mirzam


-4.8


3.82


25500


B1


Delta Vulpeculae


0.6


1.66


9900


A0


Table 2: Nearby Stars


Star


M(V)


log(L/Lsun)


Temp


Type


Star


M(V)


log(L/Lsun)


Temp


Type


Sun


4.8


0.00


5840


G2


*Proxima Centauri


15.5


-4.29


2670


M5.5


*Alpha Centauri A


4.3


0.18


5840


G2


*Alpha Centauri B


5.8


-0.42


4900


K1


Barnard's Star


13.2


-3.39


2800


M4


Wolf 359 (CN Leo)


16.7


-4.76


2670


M6


HD 93735


10.5


-2.30


3200


M2


*L726-8 ( A)


15.5


-4.28


2670


M6


*UV Ceti (B)


16.0


-4.48


2670


M6


*Sirius A


1.4


1.34


9620


A1


*Sirius B


11.2


-2.58


14800


DA


Ross 154


13.1


-3.36


2800


M4


Ross 248


14.8


-4.01


2670


M5


Epsilon Eridani


6.1


-0.56


4590


K2


Ross 128


13.5


-3.49


2800


M4


L 789-6


14.5


-3.90


2670


M6


*GX Andromedae


10.4


-2.26


3340


M1


*GQ Andromedae


13.4


-3.45


2670


M4


Epsilon Indi


7.0


-0.90


4130


K3


*61 Cygni A


7.6


-1.12


4130


K3


*61 Cygni B


8.4


-1.45


3870


K5


*Struve 2398 A


11.2


-2.56


3070


M3


*Struve 2398 B


11.9


-2.88


2940


M4


Tau Ceti


5.7


-0.39


5150


G8


*Procyon A


2.6


0.88


6600


F5


*Procyon B


13.0


-3.30


9700


DF


Lacaille 9352


9.6


-1.93


3340


M1


G51-I5


17.0


-4.91


2500


M7


YZ Ceti


14.1


-3.75


2670


M5


BD +051668


11.9


-2.88


2800


M4


Lacaille 8760


8.7


-1.60


3340


K5.5


Kapteyn's Star


10.9


-2.45


3480


M0


*Kruger 60 A


11.9


-2.85


2940


M3.5


*Kruger 60 B


13.3


-3.42


2670


M5


BD -124523


12.1


-2.93


2940


M3.5


Ross 614 A


13.1


-3.35


2800


M4


Wolf 424 A


15.0


-4.09


2670


M5


van Maanen's Star


14.2


-3.78


13000


DB


TZ Arietis


14.0


-3.70


2800


M4


HD 225213


10.3


-2.23


3200


M1.5


Altair


2.2


1.00


8060


A7


AD Leonis


11.0


-2.50


2940


M3.5


*40 Eridani A


6.0


-0.50


4900


K1


*40 Eridani B


11.1


-2.54


10000


DA


*40 Eridani C


12.8


-3.20


2940


M3.5


*70 Ophiuchi A


5.8


-0.40


4950


K0


*70 Ophiuchi B


7.5


-1.12


3870


K5


EV Lacertae


11.7


-2.78


2800


M4


Questions


Question 1: How many distinct groupings of plots (“dots”) do you see on your H-R Diagram?


[Type answer here]


Question 2: Using the Stefan-Boltzmann relationship, (L ( R2 T4), determine the relative sizes of the groups you identified.


(a) Which group must contain larger stars? Explain your reasoning for this conclusion.


[Type answer here]


(b) Which group must contain smaller stars? Explain your reasoning for this conclusion.


[Type answer here]


Question 3: On your H-R Diagram, find the Main Sequence. Can you find which dot represents the Sun?


(Highlight one): YES NO


Question 4: If you answered “YES,” how did you determine which dot represents the Sun? If you answered “NO,” why could you not determine which dot represents the Sun?


[Type answer here]


Question 5: What is the relationship between temperature and color?


[Type answer here]


Question 6: What is the relationship between temperature and absolute brightness?


[Type answer here]


Question 7: How can we tell red giant stars are very large in diameter by looking at their location on the H-R Diagram?


[Type answer here]


Page 7 of 7


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