The breadboard has many different types of holes in it, allowing things such as integrated circuits, or resistors to be inserted to help connect the different rows of the board together. Sometimes integrated circuits can be used as a way to hold some of the more fragile, bendable breadboards together, and at other times they are just used to help transfer power to multiple lights at a time. A breadboard requires no computer programming, and none of the connections that are made with a breadboard are permanent, unless the connections are going to be welded together, which is not recommended, because a different type of board can be used to get a better result. The power only comes from the sidelines of the board, which means that multiple connectors must be used to transfer power or power other tools using the board. Breadboards are used for making a prototype of a project, or a way to test something, but in this experiment, the breadboard will be used as our main source of commands for the whole BlueBot to function. The name breadboard comes from how back in the old days, people used to drill nails into the wood that they used to cut bread and other foods. There are three sizes of breadboard, full, half, and mini sized. The BlueBot uses a half sized board, and that is because the breadboard has to be …show more content…
The other two ways heat can be transferred are called convection and conduction. Anything above -286 degrees Celsius gives off some amount of thermal energy, or infrared radiation. Half of the Sun’s energy is given off as infrared, and a good majority of the visible light gets absorbed, and then turned back into infrared radiation. Incandescent bulbs even give off 90% of their energy as IR radiation, and this is also true for toasters and other kitchen appliances. TV remotes use IR waves to send an invisible signal to the television, telling it to change to a certain channel, but these rays can be