# Fall 2020 Enroll Now, Start Today - Engineering Calculus Academic Credits

Fall 2020 @ Roger Williams University## Distance Calculus - Student Reviews

*Date Posted: Feb 19, 2020*

Review by: Rebecca Johnson

Courses Completed: Applied Calculus

Review: I took the Business Calculus course from Distance Calculus in 2013. I was admitted to my MBA program, but then they told me I needed to take Calculus before starting the program. I finished the Business Calculus course in about 3 weeks in August before my program started. Not the most fun thing to do over the summer, but at least I got it done. Thanks Diane and Distance Calculus team!

Transferred Credits to: Kellogg MBA Program

*Date Posted: Feb 23, 2020*

Review by: Carl Conners

Courses Completed: Multivariable Calculus, Differential Equations, Linear Algebra

Review: After a really rough first year of calculus, I completed all of the second year calculus courses with Distance Calculus. It was like night and day the difference. My first year was so boring and monotonous. Multivariable Calculus, Differential Equations, and Linear Algebra through Distance Calculus were just so much different - so not boring at all. I thoroughly enjoyed these courses. So engaging.

Transferred Credits to: Michigan State University

*Date Posted: Feb 19, 2020*

Review by: Rebecca Johnson

Courses Completed: Applied Calculus

Review: I took the Business Calculus course from Distance Calculus in 2013. I was admitted to my MBA program, but then they told me I needed to take Calculus before starting the program. I finished the Business Calculus course in about 3 weeks in August before my program started. Not the most fun thing to do over the summer, but at least I got it done. Thanks Diane and Distance Calculus team!

Transferred Credits to: Kellogg MBA Program

## Distance Calculus - Curriculum Exploration

### 1.04: Rules

- M4: 1.04: Rules:
- M4.1: 1.04 - Basics
- M4.1.a: 1.04.B1: Derivatives, instantaneous growth rates, f'(x) and d/dx (f(x))
- M4.1.b: 1.04.B2: The Chain Rule
- M4.1.c: 1.04.B3: General rules for taking derivatives
- M4.1.d: 1.04.B4: Using the logarithm to calculational advantage
- M4.1.e: 1.04.B5: The instantaneous percentage growth rate of a positive function
- M4.1.f: 1.04.B6: Exponential growth dominates power growth and power growth dominates logarithmic growth
- M4.2: 1.04 - Tutorials
- M4.2.a: 1.04.T1: Practicing with the chain rule
- M4.2.b: 1.04.T2: Practicing with the chain rule, the product rule, and the power rule
- M4.2.c: 1.04.T3: Linear dimension: length, area, volume and weight
- M4.3: 1.04 - Give It A Try
- M4.3.a: 1.04.G1: Practicing with the chain rule
- M4.3.b: 1.04.G2: Practicing with the chain rule, the product rule, and the power rule
- M4.3.c: 1.04.G3: Global scale
- M4.3.d: 1.04.G4: Exponential functions and their constant percentage growth rate
- M4.3.e: 1.04.G5: Relating the plots of f(x) and f'(x)
- M4.3.f: 1.04.G6: 100 ln(f(x)) and the instantaneous percentage growth rate
- M4.3.g: 1.04.G7: Linear dimension: Length, area, volume, and weight
- M4.3.h: 1.04.G8: Interest compounded every instant versus interest compounded every month
- M4.4: 1.04 - Literacy
- M4.5: 1.04 - Revisited