HB A? CProbeObjForce-Dual Range 10N CAL_FORCEForceFN@Vernier SoftwareFebruary 27, 1997>Here are some example comments about the Dual Force Sensor Def10N_DFS CLinearCalibDA̜ InterceptSlopePort2P2volts ף@Vernier Software Mar 25 1997?Slope InterceptPort3P3volts ף@Vernier Software Mar 25 1997?Slope InterceptPort4P4volts ף@Vernier Software Mar 25 1997?Slope InterceptPort1'P1'volts ף@Vernier Software Mar 25 1997?Slope InterceptPort2'P2'volts ף@Vernier Software Mar 25 1997?Slope InterceptPort3'P3'volts ף@Vernier Software Mar 25 1997?Slope InterceptPort4'P4'volts ף@Vernier Software Mar 25 1997?Slope Intercept CDataModel CTimeColDefVolVolumemL CMBLColDefFForceN  CCalcColDefVVolume DisplacedmL  "Volume"-70CDataSetLatest CTimeStorageVolumeVolmLb1sH? CMBLStorageForcereield .FesxNass2 Diure- CCalcStorageVolume DisplacedVmL QQ "volume"-70This experiment file graphs force vs volume. The Vernier Dual Range Force Sensor (10-50N) should be connected to DIN1. NOTES: Be sure to set the force sensor to 10 N. Use 60 mL as your initial volume of liquid. If your use a different value then change the definition of the "Volume Displaced" to reflect an initial value other than 60 mL. In your calculations, be sure to convert your volume units to m^3 when you determine your final value for density.  $A2N v5N5N5N5N5NA1N ZArial0AriaNoneNone5N5N5N5N5NA0Nb1bc@$@̌X@YH@$@?@X@h@@8#877$8#5fffn@333@Force vs. Volumememe̙8#MOMMXYOVolumeVolmLb1sH?Forcereield .FesxNass2 Diure-Volume DisplacedVmL $@@5N5N5N5N5N