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

Fall 2020 @ Roger Williams UniversityFall 2020 Distance Calculus @ Roger Williams University offers all of the main lower-division university-level calculus courses.

- Math 136 - Precalculus - 4 credits
- Math 207 - Applied Calculus - 3 credits
- Math 213 - Calculus I - 4 credits
- Math 214 - Calculus II - 4 credits
- Math 351 - Multivariable Calculus - 4 credits
- Math 317 - Differential Equations - 3 credits
- Math 331 - Linear Algebra - 3 credits
- Math 315 - Probability Theory - 3 credits

## Distance Calculus - Student Reviews

*Date Posted: Feb 25, 2020*

Review by: Jessica M.

Courses Completed: Applied Calculus

Review: I highly recommend this course. I started the Kennedy School at Harvard with a last-minute admission, but my application required the Liberal Arts calculus course, so I had to finish the course in 3 weeks. Diane was an awesome instructor! The class was surprisingly interesting. If you need to take calculus fast, this is the program to use.

Transferred Credits to: Kennedy School of Government, Harvard University

*Date Posted: May 3, 2018*

Review by: James Holland

Courses Completed: Calculus I, Calculus II

Review: I needed to finish the Business Calculus course very very very fast before my MBA degree at Wharton started. With the AWESOME help of Diane, I finished the course in about 3 weeks, allowing me to start Wharton on time. Thanks Diane!

Transferred Credits to: Wharton School of Business, University of Pennsylvania

*Date Posted: Jun 21, 2020*

Review by: Abdul J.

Courses Completed: Applied Calculus

Review: This was the best class! So much more interesting doing the computer math than a boring lecture class. Diane was so responsive and helpful. I recommend this course.

Transferred Credits to: Villanova University

## 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