Enroll Now, Start Today - Distance Calculus Courses Academic CreditsUnable to "wait for the next academic semester"? Distance Calculus @ Roger Williams University has you covered!
Our 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 Distance Calculus @ Roger Williams University:
Distance Calculus - Student Reviews
Date Posted: Mar 17, 2020
Review by: Rebecca M.
Courses Completed: Calculus II, Multivariable Calculus
Review: Fantastic courses! I barely made it through Cal 1, and halfway through Cal 2 I found this program. I took Cal 2 and then Multivariable and I just loved it! SOOOOOOO much better than a classroom+textbook class. I highly recommend!
Transferred Credits to: Tulane University
Date Posted: Sep 6, 2020
Review by: Mark L.
Courses Completed: Applied Calculus
Review: Great course. Because of this class I was able to meet the entry requirements for my EMBA program on a tight time window in addition to sharpening math skills from classes taken over 15 years ago!
Transferred Credits to: MIT
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
Distance Calculus - Curriculum Exploration
- M6: 1.06: DiffEq:
- M6.1: 1.06 - Basics
- M6.1.a: 1.06.B1: The most important of all differential equations: y'(x) = r*y(x)
- M6.1.b: 1.06.B2: The logistic differential equation
- M6.1.c: 1.06.B3: Logistic growth is controlled growth
- M6.1.d: 1.06.B4: The differential equation y'(x) = r*y(x) + b
- M6.2: 1.06 - Tutorials
- M6.2.a: 1.06.T1: Radioactive decay and carbon dating
- M6.2.b: 1.06.T2: Socking money away
- M6.2.c: 1.06.T3: Wal-Mart: Exponential or logistic growth?
- M6.2.d: 1.06.T4: Pollution elimination
- M6.3: 1.06 - Give It a Try
- M6.3.a: 1.06.G1: Quick calculations
- M6.3.b: 1.06.G2: Data analysis
- M6.3.c: 1.06.G3: Logistic growth versus exponential growth
- M6.3.d: 1.06.G4: Why do they turn out this way?
- M6.3.e: 1.06.G5: Other differential equations
- M6.3.f: 1.06.G6: Managing your money
- M6.3.g: 1.06.G7: Which animals grow faster after their birth than they are growing at the time of their birth?
- M6.3.h: 1.06.G8: Newton's law of cooling: How a differential equation can help you enjoy your favorite cooled beverage
- M6.3.i: 1.06.G9: Pressure altimeters
- M6.4: 1.06 - Literacy