Instruction ManualManual No. 012-08428AEnergy TransferSolarModel No. ET-8593
®Model No. ET-8593 Energy Transfer - Solar9 Experiment 2: Solar Constant*Note: This is a more advanced lab. Two Temperature Sensors or one temperatur
Energy Transfer - Solar Model No. ET-859310®Analysisa) Find the slope of the line tangent to the curve at outside ambient air temperature. Do not use
®Model No. ET-8593 Energy Transfer - Solar11Sample Data/ResultsExperiment 1: Solar HeatingThe covered box has the final higher temperature. With the
Energy Transfer - Solar Model No. ET-859312®Appendix A: Resistance/Temperature Conversion TableResistance(Ohms)Temperature(Celsius)Resistance(Ohms)Tem
®Model No. ET-8593 Energy Transfer - Solar13Appendix B: Technical SupportFor assistance with the ET-8593 Energy Transfer - Solar or any other PASCO pr
Energy Transfer Solar Model No. ET-85932®Table of ContentsEquipment List... 3Introduction ...
®Model No. ET-8593 Energy Transfer - Solar3Energy Transfer - SolarModel No. ET-8593Equipment List*Use Replacement Model Numbers to expedite replacemen
Energy Transfer - Solar Model No. ET-85934®IntroductionThe Energy Transfer-Solar box (ET-8593) can be used for demonstrating the concept of solar heat
®Model No. ET-8593 Energy Transfer - Solar5Equipment SetupNote: A rod stand is required for adjusting the Solar Box to the sun’s angle.1. Remove the t
Energy Transfer - Solar Model No. ET-85936®Note: If there is no shadow on the plate, the sun’s rays are perpendicular to the plate.7. Plug the Tempera
®Model No. ET-8593 Energy Transfer - Solar7Suggested ExperimentsExperiment 1: Solar Heating and the Greenhouse EffectPart I: Solar Heating1. Mount th
Energy Transfer - Solar Model No. ET-85938®Note: Watch the angle of the sun. The angle of the sun must be 90 degrees to the box while you are collect
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