MBA Calculus Courses Online Accredited

# Winter 2020 MBA Calculus Courses - Distance Calculus @ Roger Williams University Online Accredited Course

Winter 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 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: Jan 12, 2020*

Review by: Brian Finley

Courses Completed: Calculus II

Review: I took Calculus II through Distance Calculus and can't recommend it enough. Being able to take the course at my own pace while I was working full time was tremendously helpful, especially since I hadn't taken a math course for 5 years prior. The instruction was excellent and the software they used to teach the course was intuitive and facilitated the learning process very well. This calc II class enabled me to take multivariable calc, linear algebra, and real analysis at Harvard University's extension school, which ultimately qualified me for the economics PhD program that I will graduate from next year. 8 years on, I'm still grateful to Professor Curtis and Distance Calculus.

*Date Posted: Apr 5, 2020*

Review by: Catherine M.

Courses Completed: Calculus I

Review: Calculus I from Distance Calculus was wonderful! I took AB Calculus in high school, but I didn't take the AP Calc exam. Instead I took Calculus I with Distance Calculus, and it was so much better! It was a little review of topics, but not really. I really understood calculus when I finished!

Transferred Credits to: University of Chicago

*Date Posted: Apr 30, 2020*

Review by: Hannah J.

Courses Completed: Probability Theory

Review: Probability Theory was a great course. Very very thorough. I thought it would never end :). I was very prepared for my coursework in economics. Excellent refereshher of derivatives and integrals - really forced me to remember that stuff from freshman cal.

Transferred Credits to: Boston University

## Distance Calculus - Curriculum Exploration

### 1.07: Races

- M7: 1.07: Races:
- M7.1: 1.07 - Basics
- M7.1.a: 1.07.B1: The Race Track Principle
- M7.1.b: 1.07.B2: The Race Track Principle and differential equations
- M7.1.c: 1.07.B3: The Race Track Principle and Euler's method of faking the plot of the solution of a differential equation
- M7.1.d: 1.07.B4: Tangent lines and the Race Track Principle
- M7.2: 1.07 - Tutorials
- M7.2.a: 1.07.T1: Using Euler's method to fake the plot of f(x) given f ' (x) and one value of f(x)
- M7.2.b: 1.07.T2: Using the Race Track Principle to help to estimate roundoff error
- M7.2.c: 1.07.T3: If f''(x) is always positive then tangent lines run below the curve
- M7.3: 1.07 - Give It a Try
- M7.3.a: 1.07.G1: Versions of the Race Track Principle
- M7.3.b: 1.07.G2: Running Euler's faker
- M7.3.c: 1.07.G3: The Race Track Principle and differential equations
- M7.3.d: 1.07.G4: The error function Erf(x)
- M7.3.e: 1.07.G5: Round off
- M7.3.f: 1.07.G6: Calculating accurate values of ln(x)
- M7.3.g: 1.07.G7: Calculating accurate values of e^x
- M7.3.h: 1.07.G8: Euler's faker and the second derivative
- M7.3.i: 1.07.G9: Inequalities
- M7.3.j: 1.07.G10: The Law of the Mean
- M7.3.k: 1.07.G11: If f''(x) is never positive then tangent lines run above the curve; At points of inflection, the tangent line crosses the curve
- M7.4: 1.07 - Literacy