I tested the hall sensor wires without the throttle plugged in and got these values when I moved the motor.
Blue - 2.86vDC
Yellow - 2.86vDC
Green - 2.86vDC
Red - 4.95vDC
This might sound like a stupid question, but did you have the Hall Sensor connector
plugged into the controller while you were checking the voltages and moving the motor?
If the Hall Sensor connector was definitely connected, then those fixed 2.86V readings would seem to indicate that
all three Hall sensors inside the Motor may have also been damaged in addition to the original Throttle Hall Sensor, and if they are no longer working,
they will also need to be replaced.
The Hall Sensors in the motor are not the same type as the Throttle Sensors, and
Honeywell SS41 (or equivalent) should be used for the motor.
I soldered the hall sensor back into the throttle and tried to reassemble the throttle again. Some good news is that it appears that my throttle is not making the voltage go down anymore in the red hall sensor wire was 4.95vDC after I plugged in the throttle to the controller and hooked up the batteries.
Did you check whether the throttle output varied between 0.8~1V with the throttle released and >3.25V at full throttle?
Does anyone know if I would have to take the new throttle apart again to remove the LED power display so that it doesn't short the hall sensor again?
The LED power display should not be able to short the Hall sensors, running a 48V LED power display on 72V should only cause problems with the power display circuit board components or the LEDs.
If the new throttle has a separate unterminated wire to power the LED Battery Gauge, then you simply insulate the end of the wire and leave it disconnected:
All that aside I still get 5 Blinking lights when I plug in the throttle... hence why I am frustrated. I guess I have to keep playing with the software till it doesn't blink when the throttle is connected?
You "still get the 5 Blinking lights" because the
Hall Sensor input from the Motor is still abnormal
(or the Hall sensor connector is disconnected), and you will continue to see the 5 blinks until the problem with the Motor's Hall Sensors has been rectified. Changing the software settings will not affect this particular fault code.
As the Hall Sensors were obviously all working correctly originally, something has subsequently killed
all four Hall Sensors
(Three in the motor and one in the throttle unit):
I hooked everything up yesterday and it worked!... for 3 seconds. Now every time I turn on the switch on the throttle grip the contactor turns on but the motor doesn't turn over at all.
Apart from a common ground connection, the only other thing the Four Hall Sensors have in common is the +5V feed. So I am guessing that the +5v supply has somehow been subjected to full battery voltage, which would explain the death of the Hall Sensors. Although, I am surprised that the 5V regulator inside the controller has survived the ordeal, perhaps it has some form of diode protection on its output for this very purpose.
I suspect that either your throttle was subsequently wired up slightly differently
(supplying battery voltage to the Throttle signal wire instead of the battery gauge wire) or exposed wires/connections have been allowed to touch against each other causing a short circuit between a battery voltage (Brown and Yellow switch wires?) and the +5V wire.
If the throttle has never been connected incorrectly, then I suggest you carefully check inside the throttle unit to see if there are any signs of damaged or uninsulated wires that could have touched against each other,
Make sure that your new throttle is definitely wired up to the controller correctly, as I'm sure you won't want to experience all these problems again.
Alan 
