1. For your assigned part above, research the specific part we would want to use, how much it costs, and how much power it consumes, in put your research below and check off your task once it is completed 
    2. Read through the details of the following passive thermal systems and rank them based on how useful it would be (1-best 6-worst):
      1. 7.0 Thermal Control - NASA
      2. 7.2.2 Thermal Straps
      3. 7.2.3 Thermal Contact Conductance and Bolted Joint Conductance
      4. 7.2.4 Thermal Interface Materials and Conductive Gaskets
      5. 7.2.7 Deployable Radiators
      6. 7.2.8 Heat Pipes
      7. 7.2.10 Thermal Switches

    We have bolded the research done on our assigned parts. Do something similar where you look into a specific product, how much power it requires, physical constraints, and, if possible, costs. This is so we have a rough estimate of what parts we want to look into regarding controls.

    Part Research:

    • IMU
    • Magnetometer
    • Absolute Encoder

      • Adafruit AS5600 Magnetic Angle Sensor - https://www.adafruit.com/product/6357

      • US $5.95

      • Very small PCB-mount module — negligible mass (few grams including magnet)

      • ~0.02–0.03 W (typical, at 3.3–5 V)

    • Reaction Wheel + Driver
    • Magnetorquers + Drivers
    • Thermocouple Array
      • Working off of Data Management's Research
      • Custom multi-junction thermocouple probe (Wika)
      • Price by quote
    • Pressure Sensor
      • Working off of Data Management's Research
      • A5SL-053_7720_AERO_RwG.pdf
      • ~$3,000 (estimated because need quote)
      • ~0.5W (estimated, not on datasheet)
    • Tank Servos / Valves
    • Watchdog/ Safety Circuit
    • Axial Pump
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