Summer 2020 Accredited Online Calculus Course Information - Distance Calculus @ Roger Williams University Accredited Calculus Academic CreditsSummer 2020 @ Roger Williams University
If you wish to complete a Accredited Online Calculus Courses course online, make sure you take this course from a regionally accredited college/university so that the credits you earn from this course will actually transfer to your home college/university.
The free courses available from the MOOCs (Massive Open Online Courses) like edX, Coursera, Udacity, Khan Academy, MIT Open Courseware, etc. are really excellent courses, but they do NOT result in transferrable academic credits from an accredited university!
There are more than a few actual colleges/universities offering Accredited Online Calculus Course Information - Summer 2020 Distance Calculus @ Roger Williams University courses online. Be careful as you investigate these courses - they may not fit your needs for actual course instruction and timing. Most require you enroll and engage your course during their standard academic semesters. Most will have you use a publisher's "automated textbook" which is .... um .... well, if you like that kind of thing, then you have a few options over there at those schools.
Summer 2020 Distance Calculus is all about real university-level calculus courses - that's all we do! We have been running these courses for 20+ years, so we know how to get students through the these courses fast fast fast!
Here is a video about earning real academic credits in Accredited Online Calculus Courses from Summer 2020 Distance Calculus @ Roger Williams University:
Earning Real Academic Credits for Calculus
Applied Calculus vs Calculus I
Distance Calculus - Student Reviews
Date Posted: Jan 13, 2020
Review by: Daniel Marasco
Courses Completed: Multivariable Calculus
Review: This course was more affordable than many, and the flexible format was terrific for me, as I am inclined to work very diligently on tasks on my own. It could be dangerous for a person who requires external discipline more, but it works well for self-starters, allowing you to prioritize when you have other pressing work. I was a full time teacher adding a math certification, and this course allowed me to master the math while working around my teaching schedule and fitting work into moments here and there when I had time. I was able to transfer the credits to Montana State University, Bozeman for my teaching internship program without a hitch. The instructors were all very helpful and patient, even when I failed to see a ridiculously simple solution on one problem after 20 emails back and forth. Overall, I was more pleased with my experience in this class than I was with any of my other 9 courses.
Transferred Credits to: Montana State University, Bozeman
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: Aug 16, 2020
Review by: Jennifer S.
Courses Completed: Calculus I
Review: The course was intense and required a lot of hard work. Professors ready available to assist when needed. Professors presented and explained materials/course work in detail and provided explanations and resources.
Transferred Credits to: University of New Haven, West Haven, CT
Distance Calculus - Curriculum Exploration
1.03: Growth Rates
- M3: 1.03: Growth Rates:
- M3.1: 1.03 - Basics
- M3.1.a: 1.03.B1: Instantaneous growth rates
- M3.1.b: 1.03.B2: Instantaneous Growth Rate of Power Functions
- M3.1.c: 1.03.B3: The Instantaneous Growth Rate of Trig Functions
- M3.1.d: 1.03.B4: The Instantaneous Growth Rate of Exponential and Log Functions
- M3.2: 1.03 - Tutorials
- M3.2.a: 1.03.T1: Average growth rate versus instantaneous growth rate
- M3.2.b: 1.03.T2: Using the instantaneous growth rate f'(x) to predict the plot of f(x)
- M3.2.c: 1.03.T3: Spread of disease
- M3.2.d: 1.03.T4: Instantaneous growth rates in context
- M3.3: 1.03 - GiveItATry
- M3.3.a: 1.03.G1: Relating f(x) and f'(x)
- M3.3.b: 1.03.G2: Explaining LiveMath Derivative Output
- M3.3.c: 1.03.G3: Approximation of the instantaneous growth rate f'(x) by average growth rates
- M3.3.d: 1.03.G4: Using the instantaneous growth rate f'(x) to predict the plot of f(x)
- M3.3.e: 1.03.G5: Graphics action
- M3.3.f: 1.03.G6: Up and down, maximum and minimum
- M3.3.g: 1.03.G7: Spread of disease
- M3.3.h: 1.03.G8: Average growth rate versus instantaneous growth rate
- M3.3.i: 1.03.G9: Why folks study the instantaneous growth rate instead of instantaneous growth
- M3.4: 1.03 - Literacy
- M3.5: 1.03 - Revisited