Plot the position and the velocity of a ball being dropped from the third floor in the WSU Atrium
File: https://github.com/awangberg/Calculus-Projects/blob/main/Ball_Drop_Data_in_the_WSU_Atrium.ipynb
Project 1 Write-up: https://github.com/awangberg/Calculus-Projects/blob/main/Writeup_of_Ball_Drop_Data_in_the_WSU_Atrium.ipynb
Find the relationship between
Find the relationship between
File: https://github.com/awangberg/Calculus-Projects/blob/main/Finding_changes_in_functions.ipynb
Students fit a function to data for the spread of oil on the ocean. They also calculate the change in the spread by computing the change and fitting a function to that change, and also by using differentials. They discuss whether their two answers are the same or different.
File: https://github.com/awangberg/Calculus-Projects/blob/main/Project_1.ipynb
We develop two ways to approximate functions. The first method uses several segments. The second method uses several derivatives. The calculations are done in DESMOS; The COLAB page provides space to save work.
For Part (A), students generate approximations to the function
We use sums to find the total change in position for Sally from her velocity data. This is done both using Desmos and Google Sheets.
File: https://github.com/awangberg/Calculus-Projects/blob/main/Sally's_10_minute_walk.ipynb
Students fit a model of a density function given a the locations of the function's maximum and minimum values. Then, they create various estimates using Riemann Sums of the total mass of chocolate packed into the middle of a pretzel stick which is
File: https://github.com/awangberg/Calculus-Projects/blob/main/Project_3_Accumulation.ipynb