SW30 @ 1.0 b3318- /5] 5]00@ WINDOWS-5]I4xX%-5]402@#e $@ leUU pressure @@ @ pressureVoltage e Voltage, ChA Voltage measured on channel A. Time s $@  -C6? @ Voltage V $@ $ {Gzt? @nn  Run #1   mR@ I$H? x/@@Q(P? `"y7@\@. ? n>@jp5? K7A@~p?? pressure e Pressure, ChA Absolute pressure relative to perfect vacuum. Time w` \'r>\{Qw0Og wT`6  , sOp|WDxxIsI8|I  >sH xosIކH\xx`j,   -C6? @ Pressure kPa @  ? ? C Run #1   DMVAR1 kW  Syringe VolumeLG>̍(荁LW#5(LD LwLH Volume of Syringeata for manual sampling.}~LmWLw|qHPMGf?wwLG>̎(莁LW#5(W(H,O,|WD`j\|}H6o-(Px|ۃHPP|qHPMܽ kJMܽ`j|`|J|tH(PL|}B(PܽK Time|ӮH| H¡MM4|Hk¡|}B@H sK||Hܽc6 i W|#(yƁ||.w.;?'?w?'   MbP? @ Volume Volumeww,-8eH,-i ,- Hf<1 i,-wG,-|G mL i,-G i  i,-WG#5 i WG i ,   MbP? @ A Default Data 1 Analog.dll 453 453 1 36 1 pressureVoltage 0 0.010000 0.005000 3 0.000000 1 1 Pressure Absolute pressure relative 0000 00 2 4@ ?2@ @0@ @,@ @(@ @$@nn D Run #1mR@(@K7A@4@   mR@4@ x/@2@ `"y7@0@ n>@,@ K7A@(@ DMVAR2 1/volume volume DMVAR1 kW DMVAR2  Inverse Volume  Time|ӮH| H¡MM4|Hk¡|}B@H sK||Hܽc6 i W|#(yƁ||.w.;?'?w?'   MbP? @ Y  ?  MbP? @ B Data   E Run #1   DMVAR3 pressuree DMVAR1 kW DMVAR3  Syringe Volume vs Pressure, ChA  Pressure, ChA kPa @  ? ? Syringe Volumeww,-8eH,-i ,- Hf<1 i,-wG,-|G ml i,-G i  i,-WG#5 i WG i ,   MbP? @ G Run #1   DMVAR4 pressuree DMVAR2 DMVAR4  Inverse Volume vs Pressure, ChA  Pressure, ChA kPa @  ? ? Inverse Volume  ?  MbP? @ F Run #1= f@l7?bGkg@?AiF?    Volume and Inverse Volume vs. Pressure Graphƣ     b  ' {31B7B559-FD30-11D0-835B-006097DF6F3A} DMVAR3 DMVAR4        uu !"#$%&'()+ Legend??  ,   ?MbPMbP?6o[@lZj@Dƕu@I(eM>5@*uu !"#$%&'()+ Legend5yYn??  ,   ?MbPMbP?6o[@%Wj@{hW?:팸?*  Boyle's Law Workbookp ~ ~ p;Y Y Activity P18: Boyle's Law - Pressure and Volume Use an Absolute Pressure Sensor to determine the relationship between the pressure and volume of a sample of air at constant temperature. Refer to the description in the student workbook for Physics for more information.  Q  Options: Keyboard Sampling: Volume in mL. Pressure Sensor: Sample rate = Slow at 1 sample per second. Sensitivity = Low. c  DMVAR1 kW YYdefghijeebTOzAA,- ./0U55$$\))e e== Run #1|CCCCCCCC|CDDDpD||DDD 03301999141618XƣXp