Aa3d HH $ @d HHHHff@  dA Footnote TableFootnote**.\t.\t/ - :;,.!?sc1c25lw%`9`TOCHeading1Heading2   EquationVariables 3mm<$lastpagenum>n<$monthname> <$daynum>, <$year>o"<$monthnum>/<$daynum>/<$shortyear>p;<$monthname> <$daynum>, <$year> <$hour>:<$minute00> <$ampm>q"<$monthnum>/<$daynum>/<$shortyear>r<$monthname> <$daynum>, <$year>~s"<$monthnum>/<$daynum>/<$shortyear>t <$fullfilename>u <$filename>v <$paratext[Title]>w <$paratext[Heading1]>x <$curpagenum>Hy <$marker1>z <$marker2>{ (Continued)|+ (Sheet <$tblsheetnum> of <$tblsheetcount>)}Heading & Page <$paratext> on page<$pagenum>~Pagepage<$pagenum>looSee Heading & Page%See <$paratext> on page<$pagenum>.1c Table All`7Table<$paranumonly>, <$paratext>, on page<$pagenum>1Table Number & Page'Table<$paranumonly> on page<$pagenum> AA     A$ a , 3 aoe> 3 b > 3 ci> 3 d" 3 e/um 3 fa 3 gn$d 3" he~ 3# io>/ 3$ jea 3% kfi 3& l 3' m 3 nele 3 ote 3 p] 3 qg 3 ra 36 sa 3 tod) 3 u+t 3 vu<$ 3 wn 3 xnge 3 yx p 3 zu 3 {een 3 |He 3 }e< 3 ~ e 3  3 `e 3 l$p 3 o< 3 Ta 3 &' 3 ay> 3 p> 3  3  3  3  3  3 ydqydqz$ ae>3dq{|um3H3R `@q|}{ eH3R `@H RH RFootnoteeaHq3@ `@q}|~{ 'Hq3@ `@HzHz Single LineteH'q~}{Footnote  3~u     H3D `@q~{ 3H3D `@HH Double LineH q{3l Double Line 3 &y> 3 3 3H q{ Single Line 3HZq{q TableFootnoteEGVR `@q{ }EGVR `@EPwEPw TableFootnoteod5pHH 3y HH d b  HH 3z HH 3Hd c in HUV 3z 3HUV UU` d H$ 3z H$ UU` e HUV 3y ileHUV UUd f H$ 3y H$ Ta `@UUd g`@ $$ 3! $$))) UT UT` hC79205 AstronomyNAMES: ________________________________________ UR UT` l5Work sheet________________________________________ +UP UT` iBStudio Exercise Week #2________________________________________ UT@ nWconversion factor does this give you to convert actual dimensions to model dimensions? 3!U< UT`   U: UT` pCelestial object: U8 UT` q$Actual radius of celestial object: 79U6 UT` S:Model object: ___U4 UT` __Radius of model object: *U2 UT` r__ _;U0 UT` t__Conversion factor: LU. UT` uxe s]U, UT v__g2. List the actual planetary/solar and orbital radii, and the model planetary/solar and orbital radii. stenU* UT@ v mSAlso indicate where on campus, earth, or elsewhere, you would place these objects. sizU( UT` wii U& UT` x GObjectActual radiusModel radiusActual orbitModel orbitWhere? ndiU$ UT` nd sU" UT` ~UD?The Sun_________________________________________________ UTU UT` U@?Mercury_________________________________________________ scU UT` yo=Venus_________________________________________________ cU UT`  y=Earth_________________________________________________ TU UT` U:<Mars_________________________________________________ AU UT` le?Jupiter_________________________________________________ U UT` of>Saturn_________________________________________________ )U UT` >Uranus_________________________________________________ :U UT` nd?Neptune_________________________________________________ steKU UT`  m=Pluto_________________________________________________ \U UT` ys. zmU UT` zii13. Where on earth, or elsewhere, would you place ~U UT` l  iU UT` {e?(  a-Centauri, the nearest star: ~U UT` |__ The center of our galaxy: __U UT` }UT# M31, the nearest (large) galaxy: ___HH 3uy_scHHl__HH 3vzEthHHlHUV 3wz__HUV l ___H$ 3xz___H$ l ___HUV 3yyUHUV l :UH$ 3zy___H$ l uto$$ 3{__$$l e o%dylaLeftUTdzRight(d{ar Referencedntxyf ABody. f A wBulleted\t_. UVf ACellBody. f A CellHeading. f A Footnote. fTA Heading1Body. fT A Heading2Body. fT A  HeadingRunInBody. f Al yIndented. f Ag Numbered.\t. fE A Numbered1.\tNumbered. f Af TableFootnote. fT A  TableTitleT:Table : .  fPA TitleBody. f T A  TableTitleT:Table : . f  A CellHeading. f  ACellBody. f  A CellFooting. f  ABody. @ lHeader. @ blaFooter. fABody. fABody. fA .tg..Body. fA..Body. fA Body. fA..Body. $$fA. ..Body. fAH...h...Body. fA?.H...h...Body.  ) ڝ Aw A ) A A EmphasisA EquationVariables [A  ڝڝAtu AڝA)A AAAAAyAThinAMediumADoubleAThick@A Very Thin5E5 6AAAHHHHHFormat A 7AAAsHHHHeHFormat BCCommentAQId ABlackT!BWhiteddACRedAddDGreendd EBluedFCyandGMagentad HYellow Times-Roman Times-Bold Times-ItalicSymbolSymbolHelvetica-BoldTimes HelveticaASymbol RegularRegulary BoldRegularItalicەWo$C[\+l_@j!^x6nMHu`]~aLt5C6[ՕBJ