Online Math Courses Accredited & TransferableWith many free course options from MOOCs (edX, Coursera, Udacity, Khan Academy, MIT Open Courseware, etc), you may be looking for a calculus-level course that carries accredited, transferable academic credits!
All Distance Calculus courses are offered via Roger Williams University in Providence, Rhode Island, a regionally accredited university. There are many online calculus courses that give the appearance of offering "transferrable credit" or "certificates". Investigate these offerings very carefully as usually there is a catch: the credits are only transferable to select schools, or only via examination (ACE), or similar restrictions.
When you take a Distance Calculus course, you are taking a real course from Roger Williams University, a major university in Rhode Island. Completion of these courses earns real academic transcript with real, transferable academic credits from an accredited university.
Here is a video about our Academic Credits via Distance Calculus @ Roger Williams University:
Real Academic Credits
Grades in Distance Calculus Sourses
Distance Calculus for Military Students
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: Dec 20, 2019
Review by: Bill K.
Courses Completed: Calculus I, Calculus II, Multivariable Calculus, Linear Algebra
Review: I took the whole calculus series and Linear Algebra via Distance Calculus. Dr. Curtis spent countless hours messaging back and forth with me, answering every question, no matter how trivial they might seem. Dr. Curtis is extremely responsive, especially if the student is curious and is willing to work hard. I don't think I ever waited much more than a day for Dr. Curtis to get a notebook back to me. Dr. Curtis would also make videos of concepts if I was really lost. The course materials are fantastic. If you are a student sitting on the fence, trying to decide between a normal classroom class or Distance Calculus classes with Livemath and Mathematica, my choice would be the Distance Calculus classes every time. The Distance Calculus classes are more engaging. The visual aspects of the class notebooks are awesome. You get the hand calculation skills you need. The best summary I can give is to say, given the opportunity, I would put my own son's math education in Dr. Curtis's hands.
Transferred Credits to: None
Date Posted: Feb 28, 2020
Review by: Teddy M.
Courses Completed: Precalculus, Calculus I
Review: Pros: once you get going, you can go really fast. The visual textbook is pretty cool. The instructors were very responsive. Cons: the movies are great, but the software crashes more than it should. Sometimes it is just a hassle doing things in the software instead of on paper, but once I got used to the software, it was ok.
Transferred Credits to: Texas Christian University
Distance Calculus - Curriculum Exploration
- P8: Logarithmic Functions:
- P8.1: What is a Logarithm?
- P8.1.a: Solving Power Function Equations: Roots
- P8.1.b: Solving Exponential Equations: ??
- P8.1.c: Manufacturing a Logarithm Function
- P8.1.d: Inverse Functions
- P8.1.e: Definition of the Logarithm Function
- P8.1.f: Logarithm Dictionary
- P8.1.g: Homework Problems
- P8.1.h: Homework Problems
- P8.1.i: Homework Problems
- P8.2: Examples of Logarithms
- P8.2.a: Different Bases
- P8.2.b: Natural Base: Natural Logarithm
- P8.2.c: Converting To Different Bases
- P8.2.d: Laws of Exponents
- P8.2.e: Not Laws
- P8.2.f: Homework Problems
- P8.3: Graphs of Logarithmic Functions
- P8.4: Solving Logarithmic and Exponential Equations
- P8.4.a: Solving by Graphing
- P8.4.b: Applying Logarithms
- P8.4.c: Homework Problems
- P8.4.d: Homework Problems
- P8.5: Managing Exponential Data
- P8.6: Logarithmic Functions Revisited