An ethernet cord will ensure a high-speed and stable internet connection for the real-time operation of the remote labs.

The USB-C cord provides fast data transfer and power delivery, seamlessly connecting various lab devices and hardware components, such as VR goggles and robotic controllers.

Wires, transistors, and capacitors needed for our large amount of electrical equipment.

Voice technology will be included to allow for the manipulation of specific lab equipment to minimize accessibility concerns for disabled students.

A high-quality sound sensor will be used to transmit audio from the lab and enhance the user experience.

The Solid State Relay allows the Arduino hardware to control an external power source, which is necessary given its limitations in terms of voltage and power.

Necessary microcontrollers due to their flexibility and their ability to connect to WIFI, allowing us to manipulate the physical laboratory from a distance.

Controlling equipment will be for remote manipulation of the lab equipment, and will be specialized to not pose a barrier to access for disabled students.

A 360 degree camera will be necessary to allow for a VR/AR experience.