Winter Session 2020 Enroll Now, Start Today - Engineering Calculus Academic CreditsWinter Session 2020 @ Roger Williams University
Distance Calculus - Student Reviews
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!
Date Posted: Mar 16, 2020
Review by: Malia K.
Courses Completed: Applied Calculus
Review: Course was good and fast. I don't like math so I can't say it was fun or anything. Grader was very nice. Software was ok.
Transferred Credits to: University of Maine
Date Posted: Jul 25, 2020
Review by: Michael Linton
Student Email: firstname.lastname@example.org
Courses Completed: Calculus I
Review: Amazing professor, extremely helpful and graded assignments quickly. To any Cornellians out there, this is the Calculus Course to take in Summer to fulfill your reqs! I would definitely take more Calculus Classes this way in the future!
Transferred Credits to: Cornell University
Distance Calculus - Curriculum Exploration
- 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