Robot Art Show

This project consisted of a month of work with programming tests in the middle. Most of it was building the circuit and having the code to back it up. For our final project, we first built our code from other experiments and set the circuit accordingly. Our final project consisted of 2 components with a buzzer and lights. The buzzer played Mary had a little lamb while the lights corresponded. This was really fun and I think the hardest part was the code. With the groups of two, it made this very easy and overall it turned out OK. I thought this was the hardest project of the year because I have never coded like this before. I personally think that I did pretty well on critical thinking and I think I need to work on teamwork because my partner was mostly off with his friends and bot doing a lot to help the project. Below is the evidence of our work


We started this project off by doing different experiments with circuts. We did a blinky light test and after the blinky light test we moved on to Arduino experiments. We took coding notes to go along with our experiments to note down important pieces of code to use later in the project. The coding experiments included using all of the different components in the kit separately and some of them together.

The black button on the top of the circuit which makes the noise. You may add a potentiometer, but it only makes the noise louder or quieter. And the wires are all connecting the buzzer to the circuit board  

Our model of the circuit 

This is the code that we used for our project https://create.arduino.cc/editor/zane212152247/3a176648-62e9-4b69-9603-209415d561aa

Units we used

Coulombs Law-The force of attraction/repulsion between two static charges is proportional to their charges and inverse to the square of distance between them

Equation: F=kq1q2/d^2

Unit: k=9x10^9 Nm^2/C^2

Charge-Magnitude of electrical quantity

Notes: 1 C=6.24x10^18 electrons

Ohm's Law-Voltage equals current times resistance

Equation: v=ir

Kirchhoff's Current Law-The sum of the currents going into a connection must equal the sum of the currents leaving the connection

Kirchhoff's Voltage Law-The sum of the voltages around a circuit must be equal to zero

Circuit-A closed loop of conductive material from one side of a power source to the other(+ to -)

Parallel circuit-A circuit with branches, each with a separate path for flow of charge

Series circuit-A circuit with a single path and multiple components, one after another all on the same path