Engineering Calculus Online Accredited

# Winter 2020 STEM/Engineering Calculus Online Accredited Course

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

*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: 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: Apr 13, 2020*

Review by: Jorgen M.

Courses Completed: Calculus I

Review: I really enjoyed this course, much more than I thought I would. I needed to finish this course very fast before starting my graduate degree program @ Kellogg. I was able to finish in 3 weeks. I liked the video lectures and the homework process. I highly recommend this course.

Transferred Credits to: Kellogg School of Business, Northwestern Univ

## Distance Calculus - Curriculum Exploration

### 1.09: ParamPlot

- M9: 1.09: ParamPlot:
- M9.1: 1.09 - Basics
- M9.1.a: 1.09.B1: Parametric plots in two dimensions: Circular parameters
- M9.1.b: 1.09.B2: Parametric plots of curves in three dimensions
- M9.1.c: 1.09.B3: Parametric plots of surfaces in three dimensions
- M9.1.d: 1.09.B4: Derivatives for curves given parametrically: The cycloid
- M9.2: 1.09 - Tutorials
- M9.2.a: 1.09.T1: Parametric plotting for projectile motion
- M9.2.b: 1.09.T2: Parametric plotting for designing a cam
- M9.2.c: 1.09.T3: Parametric plotting of the predator-prey model
- M9.2.d: 1.09.T4: Quick calculations
- M9.3: 1.09 - Give It a Try
- M9.3.a: 1.09.G1: Quick calculations
- M9.3.b: 1.09.G2: Parametric plotting of circles and ellipses in two dimensions
- M9.3.c: 1.09.G3: Elliptical orbits of planets and asteroids
- M9.3.d: 1.09.G4: Parametric plotting of circles, tubes and horns in three dimensions
- M9.3.e: 1.09.G5: Surfaces you can make by rotating curves
- M9.3.f: 1.09.G6: Projectile marksmanship
- M9.3.g: 1.09.G7: More cams
- M9.3.h: 1.09.G8: Parametric plotting of a predator-prey model in which the prey don't reproduce and the predators don't die
- M9.3.i: 1.09.G9: Politics and the environment
- M9.3.j: 1.09.G10: Epidemics
- M9.3.k: 1.09.G11: Collision?
- M9.4: 1.09 - Literacy