Calculus II winter 2020 Online Course

# Winter 2020 Calculus II winter 2020 Online Calculus Academic Credits

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

*Date Posted: Apr 29, 2020*

Review by: Harlan E.

Courses Completed: Calculus I, Calculus II

Review: I did not do well in AP Calculus during my senior year in high school. Instead of trying to cram for the AP exam, I decided to jump ship and go to Distance Calculus to complete Calculus I. This was awesome! I finished Calculus I in about 6 weeks, and then I kept going into Calculus II. I started as a freshman at UCLA with both Calculus I and II done!

Transferred Credits to: University of California, Los Angeles

*Date Posted: Apr 29, 2020*

Review by: Harlan E.

Courses Completed: Calculus I, Calculus II

Review: I did not do well in AP Calculus during my senior year in high school. Instead of trying to cram for the AP exam, I decided to jump ship and go to Distance Calculus to complete Calculus I. This was awesome! I finished Calculus I in about 6 weeks, and then I kept going into Calculus II. I started as a freshman at UCLA with both Calculus I and II done!

Transferred Credits to: University of California, Los Angeles

*Date Posted: Feb 28, 2020*

Review by: Karen N.

Courses Completed: Calculus I, Calculus II

Review: Awesome classes! I was really weak with Calculus, so I retook Calc 1 and kept going into Calc 2. I feel like I finally understood Calculus. The finals were pretty thorough, but not nearly as stressful as the blue book exams. I highly recommend these courses!

Transferred Credits to: Various

## Distance Calculus - Curriculum Exploration

### 2.02: Fundamental Formula

- N1: 2.02: Fundamental Formula:
- N1.1: 2.02 - Basics
- N1.1.a: 2.02.B1: The Fundamental Theorem, Part 1
- N1.1.b: 2.02.B2: The Fundamental Theorem, Part 2
- N1.1.c: 2.02.B3: Measurements of distance and velocity via the fundamental formula
- N1.1.d: 2.02.B4: Infinite Integrals and the Fundamental Formula
- N1.1.e: 2.02.B5: The integral of the sum is the sum of the integrals
- N1.1.f: 2.02.B6: Integrating Backward
- N1.1.g: 1.07.B3: Euler's Fakers
- N1.2: 2.02 - Tutorials
- N1.2.a: 2.02.T1: Getting the feel of the fundamental formula by using it to calculate integrals
- N1.2.b: 2.02.T2: Velocity, acceleration and the fundamental formula
- N1.2.c: 2.02.T3: Some measurements based on the fundamental formula
- N1.2.d: 2.02.T4: Area between curves
- N1.2.e: 2.02.T5: Approximate calculation of Infinite Integrals
- N1.2.f: 2.02.T6: The fundamental formula and its relation to differential equations
- N1.2.g: 2.02.T7: The "Indefinite Integral"
- N1.2.h: 1.07.T1: Euler's Fakers 1
- N1.2.i: 1.07.G2: Euler's Fakers 2
- N1.2.j: 1.07.G8: Euler's Fakers 3
- N1.3: 2.02 - Give It a Try
- N1.3.a: 2.02.G1: Calculating integrals by solving differential equations
- N1.3.b: 2.02.G2: How does LiveMath calculate an integral?
- N1.3.c: 2.02.G3: Velocity and acceleration
- N1.3.d: 2.02.G4: Functions defined by integrals
- N1.3.e: 2.02.G5: Fundamental ideas
- N1.3.f: 2.02.G6: Some measurements coming from the fundamental formula
- N1.3.g: 2.02.G7: Exact and approximate calculations of Infinite Integrals
- N1.3.h: 2.02.G8: Waterloo Tiles
- N1.3.i: 2.02.G9: Bad Integrals
- N1.4: 2.02 - Literacy
- N1.5: 2.02 - Revisited