X THIS IS A DATA DISK, NOT A STARTUP DISK.    CM1 NH NHP nSa??PPENDULUM.DATAMP _OQUADEWORKS.TEMPGPpBALANCE.CHEMEMP[~GEOM.SERIESTEMPٮwCOMPOUND.INT.MP[pVARIABLESS.TEMPϮ.EXPO..GROWTH.1Pu.EXPO..GROWTH.2PAu-FINDING.ROOTSMPx/BICYCLE.SAVINGS~SEESAWORKS.TEMPp|(LEMONADEKS.TEMP|.ADDITION.FACTSPk :-ARITH..SERIESMPz.BALANCING.EQS.P-BOX.PROBLEM.1MPwARITH.SERIESEMPvٮ{)NEGATIVESS.TEMP SEE.SAWRKS.TEMP8pnCOMPOUND.INT.MP?p.EXPONENTIATIONPP$ BALANCE.CHEMEMP ~CONCEPT.NEGTEMPF ~(PENDULUMKS.TEMPy &ORBITSORKS.TEMP xEXPON.GROWTH.2P$AJ{ADDITION.TABLEP( :|EXPON.GROWTH.1P/{SELL.LEMONADEMPPw*FOOD.CHAIN.TEMPK{(CYLINDERKS.TEMPYSPREADSH.ACTIV.' (PREDATORKS.TEMP )VARIABLESS.TEMP vϮϮ-BOX.PROBLEM.2MPw&SEESAWORKS.TEMPn|.COMP..INTERESTPuPREDATOR.PREYMP!K  Predato r/Prey ModelTime:?K9-9-9-Prey potentially taken:@ PMaximum prey found:%@    CA1 NK  NK P nS(* ) each o f the following:?1. J@2. R@3. X@4.?7 @ ^@ h@?9-9-9-9-_  Use the DOWN ARR OW key unti l row 18  is at the top of t he screen:  c  Enter fo rmulas i n row 25 th at will MULTIPLY ll SUBTRACT (- ) each o f the following: ? 1. @@2. p@3. >@4.?7  ,@ ^@ 0q@?9-9-9-9-1. $@2. ^@3. ^@4.?7 @ @@ o@?9-9-9-9- c  Enter fo rmulas i n row 15 th at wi +  The Conc ept of V ariables 9-9-9-9--_  Enter fo rmulas i n row 8 tha t will A DD (+) each  of the following:  ?    CA1 NK NKP nS'TimePrey Predator&  ----9-9-9------ 77tants A  Prey growth rate: rowth rate: ?2  Feeding rate: Mb`?9  Predat or death rate: ?Maximum efficiency: ffffff? Predators:ors: i@  Predators:=i@Pred. born/prey eaten: ? " Cons? i Initial vaalues Current valuesPrey actually taken: @  Prey: @@  Prey:6@@79 The Seesaw Problem w Problemblem!9-9-9--------sIf  you have a se esaw and you know the distance from the center of the rom the c enter of the see-^| |W  $@ Y@ $@ |Y@ |$ |9_______|9_9__%  []/\[]#  e weight of the seesaw./ Left Side Right Side G   DISTANCE  WEIGHT  DISTANCE  WEIGHT 9_______#  sa w to each obje ct (or pe rson) on the end and th e weight of one object,_th is spreadsheet  will tel l you how  much weight t o place o n the other end^to  make it balan ce. This  spreadsh eet ignores th@@b!  @0@@@b  @0@@b  @0@@b  @0Top) . Volume =  cubic centimeters -Base DimensionHeight Surface Area(cm)(cm)(sq cm)b  @0@    M Use the DOWN ARROW key to ey to move row 18 to top of screen    < Box Probl em Version #2, Part 2 (No @@`  @0@@`  @0@@ sq cm)`  @0@@`  @0@@`  @0- Box Problem Version # 2 (No Top)9-9- ------------ . Volume =  cubic centimeters +Base DimensionHeight Surface Area(cm)(cm)(  CA1N>N>P nS/ \FTh e spreadsheet ignores t he weight  of the seesaw.a  Enter fo rmulas i n row 31 th at will DIVIDE (/) each of the following:#1.2.3.4.9_9_9_9_[  CA1NCNCP nSf@?Y@C "@,W̺@?Y@o A Amount of interest:> V@ $@,E >3@?Y@C &@,Lo^@Y@C  @,vyڨ@?Y@C  @,E@?Y@ Amount to repay or saved:1肵@?Y@ @,? | | @,l@?Y@c  Number of months: | (@ | @,,i.@?Y@[  |9___| @,:?@?p@Z | | ?,ʷ@?Y@{ Monthly interest rate: |?2@(@% | @,Y%@?Y@Z <" Compound Interest 9-----------------!9___First 12 months@ | |  --------------------> Principal: | p@ |  CA1NHNHP nS! Selling Lemonade9-9-/Number of glasses made: Y@,Cost per glass made: Q?/Number CA1NENEP nS"@ ) R@ @ ) @n@ \@ ) O@? )?!';ADDITION FACTS TABLE' ? @ @ @ @    CM1 NH NHP nS?"$@A533333??"$@A??"$@Aifffff??"$@A?"$@A??"$@Agfffff??"$@A??"$@A?$@A??"$@A??"$@A??"$@A333333???"$@Z Value of "e" Gz@333333??"$@A ffffff??"$@A??"$@A??"$@A 433333??"$@L Constants??"$@A #Exponential Growth Time! VariablesElapsedResultsLInitial value $@ "$@\Rate of growth ??"  CA1NINIP nSMaximum efficiency: ffffff? Predators:ors: i@  Predators:=i@Pred. born/prey eaten: ? " Cons? i Initial vaalues Current valuesPrey actually taken: @  Prey: @@  Prey:6@@ K  Predato r/Prey ModelTime:?K9-9-9-Prey potentially taken:@ PMaximum prey found:%@@?"$@.! Exponential Growth9--------  VariablesResults DInitial value $@"u&@$Rate of growth   CA1NKNKP nS@Q:@  oxygen$@Q;@  iodine@<=>v? ^6  P O +  I ->  P I +  P O,7 4 6 2 2 4 4 108f9@  phosphorus,@@ ironV1 @  oxygen@92  carbon345*+,]-  Fe O +  CO ->  Fe +  CO!. 2 3 2/C0"@ |$@&@(@*@,@.@ @ ||@@@ @ |"@$@&@(@*@,@ @ ||@@@ @@ | @"@$@&@(@*@ @ ||@@@@==================================================================G====================================================================== ? ||@@@@==================================G======================================================================G======================================================================G======================================================================G====@ | @ @ "@ $@ &@ (@;9=9=9=9=9=======================================G======================================================================G====================================?" Time elapsed ?   Constants " Value of "e" Gz@     CA1 NK  NK P nS+  The Conc ept of V ariables 9-9-9-9--_  Enter fo rmulas i n row 7 tha t will A DD (+) each  of the following:  ?    CA1 NK& NK P nS0@ |1@2@3@4@5@6@ &@ ||(@*@,@ |0@1@2@3@4@5@ $@ ||&@(@*@,@.@0@1@2@3@4@ "@ ||$@&@(@*@,@.@0@1@2@3@ @ ||"@$@&@(@*@,@ |.@ ||9-9-9-9-9-9-9-9-9-9-9-9-9-9- @ || @"@$@&@(@*@ |,@.@ @"@$@&@(@ |*@,@.@0@1@2@A  @"@$@&@ |(@*@,@.@0@1@ @ ||@ @"@$@ |&@(@*@,@.@0@ @ ||@@'TimePrey Predator&  ----9-9-9------ 77tants A  Prey growth rate: rowth rate: ?2  Feeding rate: Mb`?9  Predat or death rate: ?99 The SeeSaw Problem w Problemblem!9-9-9--------sIf  you have a se esaw and you know the distance from the center of the rom the c enter of the see-^7>" Compound Interest 9-----------------!9___First 12 months@ | |  --------------------> Principal: | p@ |  CA1NHNHP nS6?Y@u As % of principal:?ӏ3@Y@% (@,肵@?Y@ / \FTh e spreadsheet ignores t he weight  of the seesaw. | |W  $@ Y@ $@ |Y@ |$ |9_______|9_9__%  []/\[]#  th e weight of the seesaw./ Left Side Right Side G   DISTANCE  WEIGHT  DISTANCE  WEIGHT 9_______#  sa w to each obje ct (or pe rson) on the end and th e weight of one object,_th is spreadsheet  will tel l you how  much weight t o place o n the other end^to  make it balan ce. This  spreadsh eet ignores - Net profit:0@ of glasses sold: S@ - Price per glass sold: ?  9-9-1 Total expenses:@. Total sales:3@.@0@1@ |2@3@4@5@6@7@ (@ ||*@,@!e Enter formulas in row 9 that will ADD (+) each of the following:!n1) $@2)$$@3)$$@4)EB The Concept of Negative Numbers-9-9-9-9-9-9-------` These exercises include both positive and negative numbers. CA1NJNJP nS_9_9_[ "@ ) R@ @ ) @n@ \@ ) O@? )?!a  Enter fo rmulas i n row 28 th at will DIVIDE (/) each of the following:9 1)  2) 3)  4)9_9(* ) each o f the following:?1) J@2) R@3) X@4)?7 @ ^@ h@?9-9-9-9-_  Use the DOWN ARR OW key unti l row 18  is at the top of t he screen:  c  Enter fo rmulas i n row 24 th at will MULTIPLY ll SUBTRACT (- ) each o f the following: ? 1) @@2) p@3) >@4)?7  ,@ ^@ 0q@?9-9-9-9-1) $@2) ^@3) ^@4)?7 @ @@ o@?9-9-9-9- c  Enter fo rmulas i n row 14 th at wi' .@0@1@2@ |3@4@5@6@7@8@' @5)?d @ @ @$$@?& 9-9-9-9-9-! ! i  Enter formulas in row 16 that wi9l SUBTRACT (-) each of the fo9lowing:! n1) .@2)..@3)..@4)@5)?d CA1NENEP nS& 9_9_9_9_9_!@ ) J@ @ )JJ@@ )JJ@JJ@ )@? )?!"h Enter formulas in row 29 that wi9l DIVIDE (/) each of the following:!> 1) 2) 3) 4) 5)* N@   Inputs ,Primary production @ Herbivores @@ ? Q? ?U@@ Green plants @ ?N/A ?Top carnivores 4@ ? Q? ?I4@Lower carnivores i@ ? Q? ?Ui@JLM@ Food Chain ModelTime:?9---4InitialRate ofFeedingMortal.Current:Feeding LevelsValuesRespir.RateRateValues  CM1NCNCP nS55@3)55@4)@5)?d@ @@55@?&9-9-9-9-9-!!8 is at the top of the screen.!i Enter formulas in row 25 that wi9l MULTIPLY (*) each of the fo9lowing:!n1) 5@2)@ @@..@?&9-9-9-9-9-!!e Use the DOWN ARROW key until row 1 Exponentiation9-----1 Base number: @PowersResults5@?:OQRSTf@?Y@C "@,W̺@?Y@o A Amount of interest:> V@ $@,E >3@?Y@C &@,Lo^@Y@C  @,vyڨ@?Y@C  @,E@?Y@ Amount to repay or saved:1肵@?Y@ @,? | | @,l@?Y@c  Number of months: | (@ | @,,i.@?Y@[  |9___| @,:?@?p@Z | | ?,ʷ@?Y@{ Monthly interest rate: |?2@(@% | @,Y%@?Y@Z ?ZJ@@?Z:@:!@?@@:"@?1 C@:#@?;fF@:$@:@?Z*@:@?0@:@?1 3@:@?;f6@: ;f@:@?Z@:@? @: @?1 #@: @?;f&@?;f@:??Z @:@?@:@?1 @:@???;f?:??Z?:??@:??1 @:?: ?;f?: п?Z?: ??:??1 ?:?1 ?:?;f?:?Z?: ??: ?1 ? CA1NHNH P nS@77$@@777@@77 @@@77@@7?Y@u As % of principal:?ӏ3@Y@% (@,肵@?Y@! @k %n! @.@n! @.@n! @k %n! @.@n! @k %n! @.@n%n! @.@n! @k %n! @.@n! @k %n! @n! @k  %n! @.@n! @k  %n! @.@n! @k  dius Height Surface Area (cm)(cm)(sq cm)k  %n! @.@n! @k  %n! @.@XZ[\#  Cylinde r Problem9-9---/ Find the smallest surface area5  Volume =   cubic ce ntimeters*Ra(@@77,@@770@@77  NaNH +  NaNO ->  NaN +  NaOH +  NH0@ 2 3 3 3ACB  sodium2M@@7771L@@777/J@@770K@@7-H@@77.I@@77,G@@77*E@@77+F@@7(C@@77)D@@777'B@@77%@@@77&A@@7#<@@77$>@@777":@@77 6@@77!8@@72@@774@@77QC  nitrogen @XD@  hydrogen @EE@  oxygenFGH_I  PCl +  PbF ->  PF +  PbCl-J 3 2 3 2K=L  phoZ[]\  Cu S +  Cu O ->  SO +  Cu$] 2 2 2^V_,@"@ |$@&@(@*@,@.@ @ ||@@@ @ |"@$@&@(@*@,@ @ ||@@@ @@ | @"@$@&@(@*@ @ ||@@@@==================================================================G====================================================================== ? ||@@@@==================================G======================================================================G======================================================================G======================================================================G====@ | @ @ "@ $@ &@ (@;9=9=9=9=9=======================================G======================================================================G====================================jlmn';ADDITION FACTS TABLE' ? @ @ @ @  CA1NCNCP nS(@  carbonSW6@  hydrogen@gX,&@@  oxygen @YPQR`S  C H O +  O ->  CO +  H O-T  12 22 11 2 2 2UEVsphorusSM@  chlorine@7N leadSO@  fluorine@@  copper9`  sulfurEa  oxygen@bcd^e  NH +  N O ->  N +  H O&f 3 2 2 2gXh @  nitrogen@Sid check the arithmetic series.!)Terms1st ? @ @ @ @ @ @ @ "@ $@ Tu1ARITHMETIC SERIES!h Enter the 1st term and increment, and press Open-Apple K to calculate,J display an CMT  NGNG 9 BNG;P nS-  The Pen dulum Problem9-9-9--K Type in p eriod for each  pendulum on  the table below.F To   CM1N@N@U nS@S@  hydrogen@E@  oxygen^  NH +  O ->  N +  H O& 3 2 2 2G  nitrogen;z  nitrogenS{@  hydrogen@J|@  oxygen}~@tuv^w  NH +  O ->  NO +  H O"x 3 2 2y  NiO +  SOo 2 2p9q  nickel9r  sulfurVs@  oxygen @  hydrogen@9j  oxygenklm]n  NiS +  O -> erm Increment!.  _9__ _9__[ ** @* "@ &@** 1@ 3@|  | | |@  1) |  | |  |       |_9__| |_9__|!  333333?6@**** G@|  | | |> 4)|  | |  |       |_9__| |_9__|!. _9__ _9__K* @**  _9__ _9__K** $@** 0@* 4@**|  | | |> 3)|  | |  |         |_9__| |_9__|!. ? ? 333333??!@!@!@!@ ?22 22 NLengthPeriodT = KLT = KL T = KLT = K/L T = K/L T = K/LN(L)(T)T/L= K T/(L^2)= K (T^2)/L= KTL= K T(L^2)= K (T^2)L= K!9-9-9-9-9-9-9-9-9-9- S constant for each of th e experiment al values of  the pendulum length.  I Direct Relat ionshipsInverse Relationships tionships&calcul ate table, pr ess Apple-K (Calculate).W The mathe matical relati onship betwe en period an d pendulum lengthQ can be fo und by identif ying which c olumn of val ues remainstz{|. _9__ _9__S* @* .@** ;@** C@|  | | |> 2)|  | |  |  ffffff? ? ?9-9-9-9-!-!-" Sun - rA- Mercury GzL@ V@ r @+ Venus = ףp [@ fffffl@ ףp=jH@+ Earth 33333b@ v@ QM@*Mars Gz~l@ x@ y&1@-Jupiter fffff  Orbits ---------- PLANETS )Planet Orbital Orbital Mass Radius (R) Period (T)' (million km)(days) (10^23 kg)  CA1NH$NHP nS@;@;@;@&'(:v?oʡ?% Average-d rop max & min.;@;@;#Min.$Max.p= ף?!!9-9-9-9-9-9-9-9-9-9-"Avg.###4B!4?*4\?D]v? @ @ 333333@ @R@ @ @,Saturn L@ 3333$@ 4@,Uranus j@ ffff@ !@-Neptune @ 3333@@ @+Pluto @ 3333,@ %@9-9-9-9-!-!-  !SATELLITES OF F JUPITER ( Satellite Orbital Orbital  Radius (R) Period (T)" (1000's km) (1000's sec)9-9-9-!-!-!-% Amalthea ̬f@ 1*E@Io fffff^z@ sh|c@' .@0@1@2@ |3@4@5@6@7@8@'.@0@1@ |2@3@4@5@6@7@ (@ ||*@,@0@ |1@2@3@4@5@6@ &@ ||(@*@,@ |0@1@2@3@4@5@ $@ ||&@(@*@,@.@0@1@2@3@4@ "@ ||$@&@(@*@,@.@0@1@2@3@ @ ||"@$@&@(@*@,@ |.@ ||9-9-9-9-9-9-9-9-9-9-9-9-9-9- @ || @"@$@&@(@*@ |,@.@ @"@$@&@(@ |*@,@.@0@1@2@A  @"@$@&@ |(@*@,@.@0@1@ @ ||@ @"@$@ |&@(@*@,@.@0@ @ ||@@^@ &Pan @ ffffy@%' Poseidon @ 33333-@"(Hades %@ @)9-9-9-!-!-#Europa @ w/-s@% Ganymede @ fffffQ@%! Callisto l@ Q@#"Hestia D@ '@!#Hera @ ̬@$$Demeter @ @%% Adrastea @  CMT  NGNG 9 BNG;P nS |_9__| |_9__|!!." _9__ _9__C#**** <@*** J@*|  | | |>$ 6)|  | |  |%)|  | |  |       |_9__| |_9__|!. _9__ _9__K*** 4@** =@** C@|  | | |> 56@**** G@|  | | |> 4)|  | |  |       |_9__| |_9__|!. _9__ _9__K* @**  _9__ _9__K** $@** 0@* 4@**|  | | |> 3)|  | |  |         |_9__| |_9__|!.. _9__ _9__S* @* .@** ;@** C@|  | | |> 2)|  | |  |  |       |_9__| |_9__|! erm Increment!.  _9__ _9__[ ** @* "@ &@** 1@ 3@|  | | |@  1) |  | | d check the arithmetic series.!)Terms1st ? @ @ @ @ @ @ @ "@ $@ T1ARITHMETIC SERIES!h Enter the 1st term and increment, and press Open-Apple K to calculate,J display an      |_9__| |_9__|!&.' _9__ _9__C(* 1@**** O@***|  | | |>) 7)|  | |  |*    |9      |_9__| |_9__|.; |_9__| |_9__|!5.6 _9__ _9__C7** Z@**** P@**|  | | |>810)|  | | | |>3 9)|  | |  |4      |_9__| |_9__|!0.1 _9__ _9__K2* E@*** ;@** .@*|  | ** 7@***** M@|  | | |>. 8)|  | |  |/        |_9__| |_9__|!+., _9__ _9__C-*.' _9__ _9__C(* 1@**** O@***|  | | |>) 7)|  | |  |*         |_9__| |_9__|!& |_9__| |_9__|!!." _9__ _9__C#**** <@*** J@*|  | | |>$ 6)|  | |  |%)|  | |  |       |_9__| |_9__|!. _9__ _9__K*** 4@** =@** C@|  | | |> 5 |_9__| |_9__|!0.1 _9__ _9__K2* E@*** ;@** .@*|  | ** 7@***** M@|  | | |>. 8)|  | |  |/        |_9__| |_9__|!+., _9__ _9__C-* _9__ _9__M<*** @**** @*|  | | |>=11)|  | |  |>      |_9__| |_9__|?.@ _9__ _9__MA*** ,@ |_9__| |_9__|D.E _9__ _9__CF**** =@*** C@*|  | | |>G13)***,,@**|  | | |>B12)|  | |  |C        |_9__| |_9__|?.@ _9__ _9__MA*** ,@ _9__ _9__M<*** @**** @*|  | | |>=11)|  | |  |>    |9      |_9__| |_9__|.; |_9__| |_9__|!5.6 _9__ _9__C7** Z@**** P@**|  | | |>810)|  | | | |>3 9)|  | |  |4       |_9__| |_9__| _9__ _9__MP** @****333333ӿ333333?**|  | | |>Q15)|  | |  |R         |_9__| |_9__|N.O |_9__| |_9__|I.J _9__ _9__CK*** #@*** ̌G@**|  | | |>L14)|  | |  |M |  | |  |H      |_9__| |_9__|D.E _9__ _9__CF**** =@*** C@*|  | | |>G13)***,,@**|  | | |>B12)|  | |  |C     |  | |  |H      |_9__| |_9__|I.J _9__ _9__CK*** #@*** ̌G@**|  | | |>L14)|  | |  |M "q#  MnO +  HCl ->  MnCl +  Cl +  H O-$ 2 2 2 2%<&  mangan@  carbonS@  hydrogen@V@  oxygen @ !^  C H +  O ->  CO +  H O( 2 6 2 2 2E3 4 2C iron@S@  hydrogen@E  oxygen@  chlorine,@@^  Fe +  H O ->  Fe O +  H$ 2  S Cl,  2 2 4 2 2 9   carbonM @  sulfur@b @olecule  is needed to balance the e quation.H(Note: There mus t be at least 1 of each molecule.)_  CS +  Cl ->  CCl + 1Balancing Chemica l Equations --9-9-9--YInstructions: Th ere are 14 probl ems. For each  problem, determine[how many of each type of m     CM1 NJ NJP nS  |_9__| |_9__| _9__ _9__MP** @****333333ӿ333333?**|  | | |>Q15)|  | |  |R         |_9__| |_9__|N.OeseG'@  oxygenG(  hydrogen@X)  chlorine,@@*+,]-  Fe O +  CO ->  Fe +  CO!. 2 3 2/C0  NiO +  SOo 2 2p9q  nickel9r  sulfurVs@  oxygen @  hydrogen@9j  oxygenklm]n  NiS +  O ->  NH +  N O ->  N +  H O&f 3 2 2 2gXh @  nitrogen@Si@  copper9`  sulfurEa  oxygen@bcd^e Z[]\  Cu S +  Cu O ->  SO +  Cu$] 2 2 2^V_,@(@  carbonSW6@  hydrogen@gX,&@@  oxygen @YPQR`S  C H O +  O ->  CO +  H O-T  12 22 11 2 2 2UEVsphorusSM@  chlorine@7N leadSO@  fluorine@GH_I  PCl +  PbF ->  PF +  PbCl-J 3 2 3 2K=L  phoQC  nitrogen @XD@  hydrogen @EE@  oxygenF  NaNH +  NaNO ->  NaN +  NaOH +  NH0@ 2 3 3 3ACB  sodium@Q:@  oxygen$@Q;@  iodine@<=>v? ^6  P O +  I ->  P I +  P O,7 4 6 2 2 4 4 108f9@  phosphorus,@@ ironV1 @  oxygen@92  carbon345@tuv^w  NH +  O ->  NO +  H O"x 3 2 2y;z  nitrogenS{@  hydrogen@J|@  oxygen}~ CA1NJNJP nS@n  @<@@@n!  @<@@@@@@n  @<@@@n  @<@@ Box Pro blem Version #1, Part 2 . Volume =  cubic centimeters -Base DimensionHeight Surface Area(cm)(cm)(sq cm)n  @<@@     M Use the DOWN ARROW key to ey to move row 18 to top of screen    4 @<@@@l  @<@@@l  @<@ @<@@@l  @<@@@l  $ Box Problem Version #19-9---- . Volume =  cubic centimeters +Base DimensionHeight Surface Area(cm)(cm)(sq cm)l   CA1N>N>P nS@S@  hydrogen@E@  oxygen^  NH +  O ->  N +  H O& 3 2 2 2G  nitrogenB The Concept of Negative Numbers-9-9-9-9-9-9-------` These exercises include both positive and negative numbers.+  The Conc ept of V ariables 9-9-9-9--_  Enter fo rmulas i n row 7 tha t will A DD (+) each  of the following:  ?    CA1 NK& NK P nS& 9_9_9_9_9_!@ ) J@ @ )JJ@@ )JJ@JJ@ )@? )?!"h Enter formulas in row 29 that wi9l DIVIDE (/) each of the following:!> 1) 2) 3) 4) 5)* 55@3)55@4)@5)?d@ @@55@?&9-9-9-9-9-!!8 is at the top of the screen.!i Enter formulas in row 25 that wi9l MULTIPLY (*) each of the fo9lowing:!n1) 5@2)@ @@..@?&9-9-9-9-9-!!e Use the DOWN ARROW key until row 1ter formulas in row 16 that wi9l SUBTRACT (-) each of the fo9lowing:! n1) .@2)..@3)..@4)@5)?d @5)?d @ @ @$$@?& 9-9-9-9-9-! ! i  En!e Enter formulas in row 9 that will ADD (+) each of the following:!n1) $@2)$$@3)$$@4)1) $@2) ^@3) ^@4)?7 @ @@ o@?9-9-9-9- c  Enter fo rmulas i n row 14 th at wiExponential Growth Time! VariablesElapsedResultsLInitial value $@ "$@\Rate of growth ??"  CA1NINIP nS?" Time elapsed ?   Constants " Value of "e" Gz@  ! Exponential Growth9--------  VariablesResults DInitial value $@"u&@$Rate of growth   CA1NKNKP nS_9_9_[ "@ ) R@ @ ) @n@ \@ ) O@? )?!a  Enter fo rmulas i n row 28 th at will DIVIDE (/) each of the following:9 1)  2) 3)  4)9_9(* ) each o f the following:?1) J@2) R@3) X@4)?7 @ ^@ h@?9-9-9-9-_  Use the DOWN ARR OW key unti l row 18  is at the top of t he screen:  c  Enter fo rmulas i n row 24 th at will MULTIPLY ll SUBTRACT (- ) each o f the following: ? 1) @@2) p@3) >@4)?7  ,@ ^@ 0q@?9-9-9-9-$@A??"$@A 433333??"$@L Constants??"$@A @@77@@7@F:@@@F:@@@ @@@F :@@@F :@@@F:@@@@F:@@@F :@@@F :@@@F :.  Finding  the Root s of a Function9-9-9---------  Function Y = 2X^2 + 6X - 3 XY F:@ CA1NHNHP nS@?"$@?"$@A533333??"$@A??"$@Aifffff??"$@A?"$@A??"$@Agfffff??"$@A??"$@A?$@A??"$@A??"$@A??"$@A333333???"$@Z Value of "e" Gz@333333??"$@A ffffff??"$@A??"7@@77 @@77$@@7771L@@777/J@@770K@@7-H@@77.I@@77,G@@77*E@@77+F@@7(C@@77)D@@777'B@@77%@@@77&A@@7#<@@77$>@@777":@@77 6@@77!8@@72@@774@@7770@@77(@@77,@@72M@@77  CA1 NF NFP nS CA1NENEP nS / \FTh e spreadsheet ignores t he weight  of the seesaw. | |W  $@ Y@ $@ |Y@ |$ |9_______|9_9__%  []/\[]#  th e weight of the seesaw./ Left Side Right Side G   DISTANCE  WEIGHT  DISTANCE  WEIGHT 9_______#  sa w to each obje ct (or pe rson) on the end and th e weight of one object,_th is spreadsheet  will tel l you how  much weight t o place o n the other end^to  make it balan ce. This  spreadsh eet ignores 99 The SeeSaw Problem w Problemblem!9-9-9--------sIf  you have a se esaw and you know the distance from the center of the rom the c enter of the see-^   CA1 NK  NK P nS 9_ ; Total amo unt saved:ed it, t he spread sheet will tell: you how m uch money you ha ve saved up./ Weekly al lowance:  8 Number of  weeks saved: xx ) Saving fo r a bicycle9-9---Y Each time  you type an amo unt for y our weekl y allowan ce, and a numberX showing h ow many weeks yo u have sa v! Selling Lemonade9-9-/Number of glasses made: Y@,Cost per glass made: Q?/Number|  | |  |M    |_9__| |_9__|N |_9__| |_9__|I*J _9__ _9__=K* p@**** ?*|  | | |:L14) _9__ _9__GF** @o@**@**|  | | |:G13)|  | |  |H   @@@@?@?h@@p@@I?h @?o.@? l@@^@@NO@?o0@?p@?o(@?b@@@@LXz @?o*@? e@@*@@YaD+ @?o,@@@?o $@?Y@@@@@S[:XL @?o &@?@^@@̔@@4or @H@@pu@@ҩ*@?o  @?P@@@@;f@?o "@?@T@@@?9@@@_@@w@?o@?B@@k@@.! @?o @?f??o@?"@@;@@LXz??o@?0@@P@@@?o- Net profit:0@ of glasses sold: S@ - Price per glass sold: ?  9-9-1 Total expenses:@. Total sales:3@*O _9__ _9__QP*@***п?**|  | | |:Q15)|  | |  |R    |_9__| |_9__|? i Initial vaalues Current valuesPrey actually taken: @  Prey: @@  Prey:6@@MI Predator/ Prey ModelTime:?HPrey potentially taken:@ PMaximum prey found:%@    CM 1  NH NHP nS @$$@?&9-9-9-9-9-! ! i  Enter formulas in row 16 that wi9l SUBTRACT (-) each of the fthat will ADD (+) each of the following:!n1) $@2)$$@3)$$@4) @5)?d @ @_@ ) J@ @ )JJ@@ )JJ@JJ@ )@? )?!` These exercises include both positive and negative numbers.!e Enter formulas in row 9  CA1!NJ!NJP nSaximum efficiency: ffffff? Predators:ors: i@  Predators:=i@Pred. born/prey eaten: ? " Constants A  Prey growth rate: rowth rate: ?2  Feeding rate: Mb`?9  Predat or death rate: ?TimePrey Predato*+,]-  Fe O +  CO ->  Fe +  CO!. 2 3 2/C0@G'@  oxygenG(  hydrogen@X)  chlorine,@@"q#  MnO +  HCl ->  MnCl +  Cl +  H O-$ 2 2 2 2%<&  manganese@  carbonS@  hydrogen@V@  oxygen @ !^  C H +  O ->  CO +  H O( 2 6 2 2 2E 2C iron@S@  hydrogen@E  oxygen@rine,@@^  Fe +  H O ->  Fe O +  H$ 2 3 4 S Cl,  2 2 4 2 2 9   carbonM @  sulfur@b @  chlo  is needed to balance the e quation.H(Note: There mus t be at least 1 of each molecule.)_  CS +  Cl ->  CCl +  1Balancing Chemica l EquationsYInstructions: Th ere are 14 probl ems. For each  problem, determine[how many of each type of molecule     CM1 NJ NJP nSr  ----!-!-!------ ?77@@77 ironV1 @  oxygen@92  carbon345^6  P O +  I ->  P I +  P O,7 4 6 2 2 4 4 108f9@  phosphorus,@@z  nitrogenS{@  hydrogen@J|@  oxygen}~@tuv^w  NH +  O ->  NO +  H O"x 3 2 2y; +  SOo 2 2p9q  nickel9r  sulfurVs@  oxygen @  hydrogen@9j  oxygenklm]n  NiS +  O ->  NiOH +  N O ->  N +  H O&f 3 2 2 2gXh @  nitrogen@Si  copper9`  sulfurEa  oxygen@bcd^e  NZ[]\  Cu S +  Cu O ->  SO +  Cu$] 2 2 2^V_,@@(@  carbonSW6@  hydrogen@gX,&@@  oxygen @YQR`S  C H O +  O ->  CO +  H O-T  12 22 11 2 2 2UEVSM@  chlorine@7N leadSO@  fluorine@PGH_I  PCl +  PbF ->  PF +  PbCl-J 3 2 3 2K=L  phosphorus  nitrogen @XD@  hydrogen @EE@  oxygenF  NaNH +  NaNO ->  NaN +  NaOH +  NH0@ 2 3 3 3ACB  sodiumQCQ:@  oxygen$@Q;@  iodine@<=>v? ^  NH +  O ->  N +  H O& 3 2 2 2G  nitrogen@S@  hydrogen@E@  oxygen@ | p@N | | ? ʷ@?p Monthly interest rate: |Q? ףp= ?(@ | @ Y%@?N  ?  "CompoCompound Interest"- compounded monthly!9___First 12 months@ | |  --------------------> Principal: | p CA1NHNHP nS=@@77$?@@777";@@77#7 7@@77!9@@73@@775@@7.@@771@@77@77*@@777"@@77&@@@77@@7| | @ l@?W  Number of months: | (@ | @ ,i.@?O  |9___| @ :?@?7  @ vyڨ@?7  @ E@?m  Amount to repay:%肵@? @ ?f@?7 "@ W̺@?a , and check the geometric series.2Terms1st Multiplyingw ? @ @ @ @ @ @ @ Term Number-GEOMETRIC SERIESb Enter the 1st term and multipying number, and press the Open-Apple KT to calculate, display CMT   NG NG > G NGFP nS72M@@7770K@@771L@@7.I@@77/J@@7,G@@77-H@@77@77+F@@777)D@@77*E@'B@@77(C@@7%@@@77&A@@77 Amount of interest:> V@ $@ E >3@?7 &@ Lo^@?\As % of principal:aw( ? (@ 肵@?*  _9__ _9__M @* @ 0@* P@**|  | | |<  1) |  | |  |