The objective of this task was to learn about the 3D printer and the 3D printing process. To complete this task, I first downloaded a 3D model and the imported it into creality and scaled it down. I sliced this and got a gcode file which I transfered to a SD card and then uploaded to the 3D printer.
This task introduced me to Github. I completed the task by first forking the marvel task directory and making a local copy of the directory. I then corrected the error in the main.py file. I then commited this change and sent a pull request to succesfully complete this task.
def add(number_a:int, number_b:int):
""
This function adds 2 numbers
""
return number_a + number_b
This task introduced me to the L298N motor driver which is commonly used in robo-cars, etc to control the speed of the wheel. The circuit of this task comprised of a DC motor, an Arduino, a push-button and a potentiometer. The idea was that turning the potentiometer would vary the speed of the DC motor and pressing the button would allow for reversing the direction of rotation. An image and video of the physical setup of the circuit are given below.
The objective of this task was to make a circuit in TinkerCad that involved a ultrasonic sensor mounted on a servo motor. The ultrasonic sensor would measure the distance from the object and print it to the serial monitor. This helped me understand the working of TinkerCad and made me more comfortable to work with it.
In this task I set up a circuit including a ESP32 which would enable control of 2 LEDs using a webpage hosted locally. This task helped me learn about the ESP32 micrcontroller and also about how to use the Arduino IDE to push code to the ESP32. I also learnt about how to set up a local host with an ESP32. The video and images of me doing the task are given below.
I completed this task in the presence of the coordinators. I learnt about the soldering process and also about the solder, flux used. I soldered some wires to a LED strip which was to be used in the lithophanes. Some images are given below.
In this task I had to set up a circuit to get a 60% duty cycle for a 555 timer and obtain the waveform on the CRO. I learnt the designing process for a 555 timer and about the internal structure of the 555 timer. The images of the circuit made by me are given below.
This task included heading over to the Kaggle website and tackling the titanic dataset problem. This task familiarized me with some of the common machine learning algorithms like linear regression, logistic regression, random forest model ,etc. The task was to use the Random Forest model and predict how many percent of men and women survived depending on variables such as their room no, age, etc.
This task required me to use the python libraries called pandas and matplotlib to first organize and sort the dataset in an appropriate manner using pandas and then to plot it using the matplotlib library. The dataset I used had data on various colleges ranging from no. of students to percentage of placement, etc.
This task consisted of a couple of smaller tasks that I had to complete such as making folders, concatenating files, etc. This helped me learn to use the Ubuntu OS and familiarized me with some of the commands such as mkdir, cd ,etc.
For this task I made a simple burglar alarm using a Quad And gate. The idea was that the alarm would go off when the door is open but the key is closed. I used a photo resistor and a button to represent the door and the key. I used the logic of a AND gate for this purpose. I simulated this circuit in TinkerCad as well. Below are the images of the logic and the simulation.
This task was intended to introduce us to using APIs, making calls and getting data. I am already somewhat familiar with using APIs and have made few programs using them. As such I have showcased images of a program which makes use of the OpenWeatherApi check the weather condition of my locality and then send an SMS via the Twilio API if there is a possibility of rainfall on that particular day. This reminder helps me to check for my umbrella everyday. I'm also running this program everyday using the pythonanywhere service.