video1.0<iframe src="https://www.loom.com/embed/e3ae8bf94ce24e8ea7439d1feff2040d" frameborder="0" width="1840" height="1380" webkitallowfullscreen mozallowfullscreen allowfullscreen></iframe>13801840Loomhttps://www.loom.com13801840https://cdn.loom.com/sessions/thumbnails/e3ae8bf94ce24e8ea7439d1feff2040d-e6b0501a75718d1f.gif4239.01In this video, I walk you through a series of differentiation and integration problems, focusing on separation of variables, which is crucial for our upcoming exam. I demonstrate how to model the rate of change of a spherical mint as it dissolves, leading to the conclusion that it takes approximately 5 minutes and 6 seconds for the mint to dissolve completely. I also address a limitation of the model regarding the consistency of how someone might suck on the mint. Additionally, I solve a differential equation related to the production of oxygen from mixed chemicals, ultimately determining the maximum volume produced. Please pay close attention to the methods used, as understanding these concepts is essential for your success.