Sasha Townsend - Tulsa
I’m an assistant professor at Tulsa Community College, and a doctoral student at the University of Tulsa. Here, I post videos for my math students, and anyone else who is interested.
In Spring 2020, I began creating videos for Calculus II and III. When the pandemic sent us home, I added videos for Calculus I. In Fall 2020, I created videos for Elementary Statistics. I've also uploaded solutions to HW problems for my students for Calculus II, III, DE, and Statistics. I recently started adding videos for algebraic geometry as well.
My goals are twofold: that you understand the concepts, and that you can successfully apply concepts to solve problems. While you work toward mastery, I’m here to help you. I don't just want you to understand what to do, but I want you to understand why we're doing what we're doing.
It's a work-in-progress. I hope these resources make it easier to learn math! Don't hesitate to reach out.
5.6.6 Compositions Involving Inverse Trigonometric Functions - Analytic Geometry and Calculus I
5.6.5 Optimization and Inverse Trig. Functions - Analytic Geometry and Calculus I
5.6.3 Related Rates and Inverse Trigonometric Functions - Analytic Geometry and Calculus I
5.6.2 Derivatives of the Six Inverse Trigonometric Functions - Analytic Geometry and Calculus I
5.6.1 Review of the Six Inverse Trigonometric Functions - Analytic Geometry and Calculus I
5.5.16 Sketching a Piecewise Function, Logarithmic Differentiation - Analytic Geom. and Calc. I
5.5.15 An Inverse Function, Exponentials with Bases Not Equal to e - Analytic Geometry & Calculus I
5.5.14 Curve Fitting & Rates of Change, Applications of Exponential and Logarithmic Fns - Calculus I
5.5.13 Breaking Strength of a Cable, Applications of Exponential Fns - Analytic Geom. & Calculus I
5.5.12 Logistic Population Growth, Applications of Exponential Fns - Analytic Geom. and Calculus I
5.5.11 Applications of Exponential Fns, Timber Yield - Analytic Geometry and Calculus I
5.5.10 Two Limit Definitions of the Natural Base e - Analytic Geometry and Calculus I
5.5.9 Compound Interest and Precalculus, Comparing Options - Analytic Geometry and Calculus I
5.5.8 Present Value & Compound Interest, Applications of Exponential Fns. - Analytic Geom. & Calc. I
5.5.7 Natural Base & Compound Interest, Applications of Exponential Fns - Analytic Geom. & Calc. I
5.5.6 Applications of Exponential and Logarithmic Functions, Example 1 - Analytic Geom. and Calc. I
5.5.5 Curve Sketching, Exponential Function times a Sinusoidal Function - Analytic Geom. & Calc. I
5.5.4 Antidifferentiation and Integration, Integrals Involving Exponentials with Bases Other Than e
5.5.3 Logarithmic Differentiation and Curve Sketching - Analytic Geometry and Calculus I
5.5.2 Curve Sketching, Function Involving Log Base a of a Polynomial in x - Analytic Geom. & Calc. I
5.5.1 Exponential Functions with Bases Other than e - Analytic Geometry and Calculus I
5.4.5 Integration by Substitution, Examples Involving Exponentials
5.4.4 Antidiff. by Substitution, Examples Involving Exponentials - Analytic Geom. & Calc. I
5.4.3 Visualizing a Changing Accumulation Function - Analytic Geometry and Calculus I
5.4.2 Curve Sketching, Functions Involving Exponentials - Analytic Geometry and Calculus I
5.4.1 Curve Sketching, Numerical Integration, and the Normal Probability Distribution
5.3 Derivatives of Inverse Fns, Derivations of Inverse Trig Derivatives - Analytic Geom. & Calc. I
5.2.5 Average Price of a Product - Analytic Geometry and Calculus I
5.2.4 Population Growth, A Simple Initial Value Problem - Analytic Geometry and Calculus I
5.2.3 Numerical Integration of the Natural Logarithmic Function - Analytic Geometry and Calculus I