STR4STR2BookC_StringPrint_SetupTPrintStartupSound_TabLISTBook_PrefsAct List Scene Drawing_Model Draw_Specs diagram_struct_arrayDependentsScriptPad_ListManuscriptPlayPlay_PrefsModelSubscript_Set_ListSubscript_SetArraySimulation_ModelRun_Specsentity_struct_arrayentity_structint16_arraydouble_arraytoken_type_arraytoken_type run_handle_array!run_handle"Draw_Index#Poster_Info$Poster_Tab%AliasRecord&Play_Where'queue(Units)diagram_struct*Point_array+movie_attach,Picture_Tab-Pad.Button_Type/Condition0Movie_Tab1Model_Index2Model_Index_array3Story_Entity_Handle4slider_type5Log_Condn6Log_Page7Dependent_Entry8graph_type9curve_type_array:curve_type;Pathname<Panel=Sector_Specs>SET?Sense_Setup@select_struct_arrayAallow_struct_arrayBPicture_arrayCEntity_Controller_MapDSection_ListEFont_MapFFont_Map_Record_ArrayGFont_Map_RecordHWindow_ListIModel_WindowJPad_WindowK@@%Hd6VxxHH V`HH Vd'% od>> ,,,     p    JJ   drmd   P@@,0>bW_ FW_ \R_ PP???zG{"2    VL >~]_ ^[_ "Y_ V_ Z .#rz (1 Dim_Name_1 jj@6? Time$ 2#s@?@$?@Y???@? oxygen0 ! "@???????????????# $ *@$  ,%&f?REACTION LIMITED&'()molmoles  mols@ @@$?@ @Y@@???@ ? @ hydrogen0 !"@ @@@@@@@@@@@@@@@@# $@$  ,%=?REACTION LIMITED&'()0c9?????????? reaction:outflow_of_hydrogen*(outflow_of_oxygen/outflow_of_oxygen)      !# $()0s@@$?@Y@@????@water0 !"???????@@@@@@ @ @@# $()f??????????inflow_of_water reaction !# $()f??????????outflow_of_oxygenmolar_ratio_of_O2 !# $() mol/time  mol  timef?????????????outflow_of_hydrogenmolar_ratio_of_H2 !# $()lc ??????????????molar_ratio_of_H22/2 !# $()c ??????????????molar_ratio_of_O2.5   ? !# $()  `   8*aNpuDpu hm+,-./ZZ I]_ n& n 0'1Run234 * D @~+,- Graph 1."3 * t4@4(= ,,0E +,-,Synthesis of water from oxygen and hydrogen.3 *@@k+,-.5hh @4@ @M?267'# # 3 *@- @nW+,-.5@4@@?267'# # 3 *NwDw o+,-./ ^_ A^_ n& n 0'^[_ # 1model234 *R@xd+,-.5?267'# # 3 *R @f+,-.5?267'# # 3 *R@f+,-.5?267'# # 3 * tVe@Ve N]!+,- FINAL VALUES.3 * tO@OX G`+,- INPUT VALUES.3 *NtDtn  lv+,-./IZ_ n& n 0'1Restore234 **NDn  v+,-./ Z_ A [_ n& n 0'^[_ # 1 Introduction234 drmd8plwh'8plwh'  H  t* sj@@I+{V+,-.3 * s*@B+,-.3 * c@'+,-.3 * ao @j+,-.3 * f@6 +>,-+.3 * fj@YLj+jTj,-+jj.3 * dj@as+,-.3 * d@+,-.3 * a @+,-.3 *ND  +,-./ \_ A\_ n& n 0'~]_ # 1 analysis234 * t @    +,-.3 * cs@ N +,-.3 * a '@ o+,-.3 * c4s@ NB+,-.3 * a@ +@;np+,-.3 * t"@" #+,- This STELLA model shows the synthesis of water from hydrogen and oxygen. The user can vary the amount of inputs (moles of) and the program will calculate and graph the final value of reactants and products..3 * t@#++,-Synthesis of Water.3 * sU@4f+,-.3 * dWZ@NQ`c+,-.3 * fY@HZuY+YbY,-+YbY.3 * a'!l@\+,-.3 *N(<D(<A  4I+,-./ * A8Z_ n& n 0'^[_ H# 1 Equations234 *N)D)BX !J`+,-./ pZ_ AB[_ n& n 0'^[_ # 1model234 *N+xD+xD #pL+,-./ X_ A&X_ n& n 0'~]_ # 1 analysis234 * teT@eTH ]LP+,- hydrogen(t) = hydrogen(t - dt) + (- outflow_of_hydrogen) * dt INIT hydrogen = 0 OUTFLOWS: outflow_of_hydrogen = molar_ratio_of_H2 oxygen(t) = oxygen(t - dt) + (- outflow_of_oxygen) * dt INIT oxygen = 0 OUTFLOWS: outflow_of_oxygen = molar_ratio_of_O2 water(t) = water(t - dt) + (inflow_of_water) * dt INIT water = 0 INFLOWS: inflow_of_water = reaction molar_ratio_of_H2 = 2/2 molar_ratio_of_O2 = .5 reaction = outflow_of_hydrogen*(outflow_of_oxygen/outflow_of_oxygen) .3 * teR@eRV]J^+,-Model Equations.3 *N)D) !+,-./ lAX_ n& n 0'^[_ # 1 Introduction234 *ND|  +,-./ X_ AX_ n& n 0'^[_ h# 1 Introduction234 *NoDo g+,-./Aޒ> n& n 0'1 Close Model234  drmd 8plwh' 8plwh'8plwh'8plwh'8plwh'8plwh' .66C9 34M G^G _VX~]_ "Y_  9ZZU_ V_ V_ YJV_ @6c@6."The Synthesis of Water:;D V_ @5fffff%2w}; .V_ @5fffff%2% ; CGLPTY]bfkotx} #  &< @? >W_ U_ R_ 0Y_ FU_   pW_ W_ 5 8    drmd P = pW_ tV_ 5 =?    drmd   pW_ S_ 5  F    drmd pW_ >Y_ S_ 5> ?T @bbS_ s BU_ ^U_ PU_ F L(ABC  D2# D2#  Ex2F G HArialHArialHArialHCourierEI J =8J=8K `Qz=."