Hardware Team: The motor case didn't leave room for the wires to be connected. A new case was re-designed and printed. The team then inserted the newly printed inner casing into the nanocube. Working on getting the wires attached for all the sensors. The motor is attached and is spinning the gears in the nanocube. The team is also printing separate plugs that will hold the sensors and insert into the inner case.
Software Team: Putting together all the modules into a main chunk of code. The team also performed bug testing on the existing modules. They also implemented a function found by other team members for converting temperature sensor data to actual temperatures.
Biology Team: The team has looked at the all the previous data from the bacteria tests and found that the light readings for when the vial is in front of the photo resistor are higher than the normal resting position with no vial. When liquid is in the vial, there is a lens effect created, which focuses the light. The more transparent the liquid, the more the light is focused.
Software Team: Putting together all the modules into a main chunk of code. The team also performed bug testing on the existing modules. They also implemented a function found by other team members for converting temperature sensor data to actual temperatures.
Biology Team: The team has looked at the all the previous data from the bacteria tests and found that the light readings for when the vial is in front of the photo resistor are higher than the normal resting position with no vial. When liquid is in the vial, there is a lens effect created, which focuses the light. The more transparent the liquid, the more the light is focused.