# Winter Session 2020 MBA Calculus Courses - Distance Calculus @ Roger Williams University Accredited Calculus Academic Credits

Winter Session 2020 @ Roger Williams UniversityMBA students seeking to fulfill their calculus requirement may do so via our Applied Calculus - Math 207 - 3 credit course - which is very popular with MBA-bound students.

Even if your MBA school does not require Calculus, your enrollment application to your MBA school will look stronger with more Calculus courses on your academic transcripts.

For most MBA students, a single course like Applied Calculus will suffice.

For those students planning to go to very strongly mathematical MBA program (e.g. Sloan School of Management at MIT), you will actually need to take the ENTIRE Engineering Calculus sequence!

Please explore these links below that describe more about the types of calculus courses you may wish to take before applying for MBA school, or other graduate programs that historically require Calculus and/or more mathematics prerequisites.

Winter Session 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: May 21, 2020*

Review by: Chester F.

Courses Completed: Calculus I, Calculus II

Review: I did not enjoy Calculus I at my school. I retook Calculus I, and then Calculus II, over the summer via Distance Calculus and it was awesome. I started my sophomore year back on track and ready for my physics classes. I struggled with the MathLive software but I guess it was alright.

Transferred Credits to: University of North Carolina

*Date Posted: Sep 20, 2020*

Review by: Genevieve P.

Courses Completed: Applied Calculus

Review: I found out from my grad school after being accepted that I needed a Calculus course before starting their MBA program. I had less than 6 weeks to do it (and as a non-STEM undergrad no less). The video lectures were informative, the pre-calc refresher was great to get re-conditioned, and the asynchronous format worked so well as I did this at night/weekends after work. I completed it in 4 weeks. Professor Curtis was extremely responsive, graded assignments quickly, and a supportive guide providing constructive feedback to me to excel at the assignments. I highly recommend this course for those who need a pre-req in a hurry or like learning on their own schedule. Thanks, Distance Calculus and Professor Curtis!

Transferred Credits to: Massachusetts Institute of Technology (MIT)

*Date Posted: Dec 9, 2019*

Review by: Louisa A.

Courses Completed: Calculus I

Review: My microeconomics class required college-level calculus as a prerequisite, and I didn't want to wait until next year to take the class. So, I took DC's Calculus I class over the summer, so I could register for econ when I got back to school this fall. I actually think I got more help taking the class online than I would have in the huge lecture classes here. Prof. Curtis was really clear in explaining concepts and talking me through the topics that I was having trouble with. It took me about 10 weeks to finish the class, which didn't seem too long and didn't feel rushed. My friends who are in calculus now, trying to finish the prereq, are pretty jealous!

## 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