Multivariable Calculus Course Information
Multivariable Calculus course can best be described as a "the first semester course of Differential and Integral Calculus to functions of many variables".This course has many names, all being equivalent:
- Calculus III
- Calculus IV
- Vector Calculus
- Calculus of Many Variables
- Calculus of Several Variables
Below are some links for further information about the Multivariable Calculus course via Distance Calculus @ Roger Williams University.
- Multivariable Calculus Online Course Credit
- Multivariable Calculus - Calculus 3
- Can I Take Multivariable Calculus in High School?
- Multivariable and Linear Algebra As A Senior in High School?
- Differential Equations, Multivariable and Linear Algebra in High School?
- Online Options for Multivariable Calculus
- Is Calculus 2 Same As Multivariable Calculus
- Do You Need Multivariable Calculus Before Linear Algebra
- Which Calculus is Multivariable Calculus
- What is the Best Online Multivariable Calculus Course
- Multivariable Calculus Online Course FAST
- Multivariable Calculus Online Course For Credit Start Immediately
- Multivariable Calculus Online Course For Credit Start Today, Finish Quickly
- Multivariable Calculus Online Course For Credit Start Immediately
- Multivariable Calculus Accredited Online Course
- Multivariable Calculus Summer 2020 Online Course
- Multivariable Calculus Online Accredited
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 30, 2020
Review by: Hannah J.
Courses Completed: Probability Theory
Review: Probability Theory was a great course. Very very thorough. I thought it would never end :). I was very prepared for my coursework in economics. Excellent refereshher of derivatives and integrals - really forced me to remember that stuff from freshman cal.
Transferred Credits to: Boston University
Date Posted: Feb 23, 2020
Review by: Carl Conners
Courses Completed: Multivariable Calculus, Differential Equations, Linear Algebra
Review: After a really rough first year of calculus, I completed all of the second year calculus courses with Distance Calculus. It was like night and day the difference. My first year was so boring and monotonous. Multivariable Calculus, Differential Equations, and Linear Algebra through Distance Calculus were just so much different - so not boring at all. I thoroughly enjoyed these courses. So engaging.
Transferred Credits to: Michigan State University
Distance Calculus - Curriculum Exploration
VC.04 - Trajectories
- V4: VC.04 - Trajectories:
- V4.1: VC.04 - Basics
- V4.1.a: VC.04.B1: Vector fields and their trajectories
- V4.1.b: VC.04.B2: Flow of vector fields along curves; flow of vector fields across curves: Visual inspection
- V4.1.c: VC.04.B3: Flow of vector fields along curves; flow of vector fields across curves
- V4.2: VC.04 - Tutorials
- V4.2.a: VC.04.T1: Flow across and flow along: Visual inspection
- V4.2.b: VC.04.T2: Differential equations and and their associated vector fields
- V4.2.c: VC.04.T3: Flow across and along a curve and the sign of the dot product
- V4.2.d: VC.04.T4: The 2D electric field
- V4.2.e: VC.04.T5: Troubleshooting plots of vector fields
- V4.3: VC.04 - Give It a Try
- V4.3.a: VC.04.G1: Looking for sinks (drains)
- V4.3.b: VC.04.G2: Flow along and flow across
- V4.3.c: VC.04.G3: Normals, tangents and dot plots
- V4.3.d: VC.04.G4: The most important vector field of them all: The gradient field
- V4.3.e: VC.04.G5: Differential equations and their associated vector fields
- V4.3.f: VC.04.G6: Trajectories: Can they cross?
- V4.3.g: VC.04.G7: Drifting along with a tumbleweed
- V4.3.h: VC.04.G8: Logistic harvesting revisited
- V4.3.i: VC.04.G9: Water flow with spigots and drains
- V4.3.j: VC.04.G10: 2D Electrical fields
- V4.3.k: VC.04.G11: Gradient fields for max-min, Hamiltonian fields for level curves, and implicitly defined functions
- V4.4: VC.04 - Literacy