Summer 2020 Enroll Now, Start Today - Calculus 4 Academic CreditsSummer 2020 @ Roger Williams University
Unable to "wait for the next academic semester"? Summer 2020 Distance Calculus @ Roger Williams University has you covered!
Our Summer 2020 Distance Calculus courses are designed to be asynchronous - a fancy term for "self-paced" - but it more than just self-paced - it is all about working on your timeline, and going either as slow as you need to, or as fast as your academic skills allow.
Many students need a Calculus course completed on the fast track - because time is critical in finishing calculus courses needed for academic prerequisites and graduate school applications.
Here is a video about earning real academic credits from Summer 2020 Distance Calculus @ Roger Williams University:
Distance Calculus - Student Reviews
Date Posted: Jan 12, 2020
Review by: Anonymous
Courses Completed: Calculus I
Review: This course is amazing! I took it as a requirement for admission to an MBA program, and couldn't have been happier with the quality and rigor of the course. I previously took calculus two times (at a public high school and then a large public university commonly cited as a "public ivy"), this course was by far the best and *finally* made the concepts click. Previously I had no idea what was going on because terrible PhD students were teaching the course and saying stuff like "a derivative is the slope of a tangent line" - ??? but what does that mean ???, but the instructors in the Shorter University course explain everything in ways where it FINALLY made sense (e.g., "imagine a roller coaster hitting the top of a hill, there's a moment where it shifts momentum and you're not accelerating or decelerating, that's what a 0 rate of change is - that's when the derivative would be zero"). They explain everything in multiple ways and relate it to other concepts. It all made perfect sense when I finally had a good instructor. Really recommend this class
Transferred Credits to: The Wharton School, UPenn
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: 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
VC.04 - Trajectories
- V4: VC.04 - Trajectories:
- V4.1: VC.04 - Basics
- V4.1.a: VC.04.B1: Vector fields and their trajectories
- V4.1.b: VC.04.B2: Flow of vector fields along curves; flow of vector fields across curves: Visual inspection
- V4.1.c: VC.04.B3: Flow of vector fields along curves; flow of vector fields across curves
- V4.2: VC.04 - Tutorials
- V4.2.a: VC.04.T1: Flow across and flow along: Visual inspection
- V4.2.b: VC.04.T2: Differential equations and and their associated vector fields
- V4.2.c: VC.04.T3: Flow across and along a curve and the sign of the dot product
- V4.2.d: VC.04.T4: The 2D electric field
- V4.2.e: VC.04.T5: Troubleshooting plots of vector fields
- V4.3: VC.04 - Give It a Try
- V4.3.a: VC.04.G1: Looking for sinks (drains)
- V4.3.b: VC.04.G2: Flow along and flow across
- V4.3.c: VC.04.G3: Normals, tangents and dot plots
- V4.3.d: VC.04.G4: The most important vector field of them all: The gradient field
- V4.3.e: VC.04.G5: Differential equations and their associated vector fields
- V4.3.f: VC.04.G6: Trajectories: Can they cross?
- V4.3.g: VC.04.G7: Drifting along with a tumbleweed
- V4.3.h: VC.04.G8: Logistic harvesting revisited
- V4.3.i: VC.04.G9: Water flow with spigots and drains
- V4.3.j: VC.04.G10: 2D Electrical fields
- V4.3.k: VC.04.G11: Gradient fields for max-min, Hamiltonian fields for level curves, and implicitly defined functions
- V4.4: VC.04 - Literacy