Calculus is rising, Our team of experts have searched thousands of courses so you don’t have to. We has come up with this list of Courses Tutorials, Classes, Training for Calculus,This list includes mostly free courses (some of top notch paid course included as well) from top schools and big name institutes. These courses are ideal for beginners, intermediates, as well as experts to level up your Calculus skills.’

## 1. Pre-University Calculus via edx, by Delft University of Technology

**Required Effort:** 8 Weeks, 6-8 hours per week.

**Total Students Enrolled:** 89,373+

**Cost:** Free

**Level:** Introductory

Mathematics is the language of Science, Engineering and Technology. Calculus is an elementary mathematical course in any Science and Engineering Bachelor. Pre-university Calculus will prepare you for the Introductory Calculus courses by revising five important mathematical subjects that are…[ReadMore](https://www.edx.org/course/delftxcalc001x?utm_medium=affiliate_partner&utm_source=coursewire-course-wire)

**Why Choose This Course:**

- Understand, visualize and manipulate different elementary functions, like power functions, roots, polynomials, trigonometric functions, exponential and logarithmic functions;
- Understand, visualize and solve equations and inequalities involving these elementary functions;
- Understand the concept of differentiation and calculate the derivatives of compositions of elementary functions;
- Understand the concept of integration and to use some elementary integration techniques;
- Understand, visualize and manipulate geometric objects in the plane, such as vectors, lines, circles and more general curves.

You can enroll **HERE**

## 2. Calculus 1A: Differentiation via edx, by Massachusetts Institute of Technology

**Required Effort:** 13 Weeks, 6-10 hours per week.

**Total Students Enrolled:** 82,752+

**Cost:** Free

**Level:** Introductory

How does the final velocity on a zip line change when the starting point is raised or lowered by a matter of centimeters? What is the accuracy of a GPS position measurement? How fast should an airplane travel to minimize fuel consumption? The answers to all of these questions involve the…[ReadMore](https://www.edx.org/course/mitx18011x?utm_medium=affiliate_partner&utm_source=coursewire-course-wire)

**Why Choose This Course:**

- How to evaluate limits graphically and numerically
- The physical meaning, and geometric interpretation of the derivative
- To calculate the derivative of any function
- To sketch many functions by hand
- To make linear and quadratic approximations of functions
- To apply derivatives to maximize and minimize functions and find related rates

You can enroll **HERE**

## 3. AP® Calculus: Challenging Concepts from Calculus AB & Calculus BC via edx, by Davidson Next

**Required Effort:** 14 Weeks, 2-4 hours per week.

**Total Students Enrolled:** 27,624+

**Cost:** Free

**Level:** Introductory

Well-respected AP instructors from around the United States will lead you through video instruction, exam-style questions and interactive activities to help you master the most challenging concepts in the AP® Calculus AB & Calculus BC curriculum.

Each module will cover one of the…[ReadMore](https://www.edx.org/course/davidsonnextcal_apccx?utm_medium=affiliate_partner&utm_source=coursewire-course-wire)

**Why Choose This Course:**

- Mastery of challenging concepts from the AP® Calculus AB & BC curricula
- Build confidence in the material as you learn concepts from experienced AP® Calculus teachers
- Build graphical intuition through interactive graphing
- Practice for your exam with graded exam-style questions (with explanations)

You can enroll **HERE**

## 4. Engineering Calculus and Differential Equations via edx, by University of Hong Kong

**Required Effort:** 6 Weeks, 3-6 hours per week.

**Total Students Enrolled:** 7,717+

**Cost:** Free

**Level:** Introductory

How do electrical engineers find out all the currents and voltages in a network of connected components? How do civil engineers calculate the materials necessary to construct a curved dome over a new sports arena? How do space flight engineers launch an exploratory probe?

If questions…ReadMore

**Why Choose This Course:**

- Limits, Continuity, and Differentiation in Engineering Calculus
- Applications of Derivatives
- Parametric Equations and Polar Coordinates
- Techniques of Integration
- Applications of Definite Integrals
- Engineering Differential Equations and First Order Equations
- Homogeneous, Inhomogeneous Equations, and Exact Equations
- Homogeneous Linear Equations with Constant Coefficients
- Cauchy-Euler Equations and Laplace Transforms
- How to analyze a given engineering problem
- Ways to identify appropriate calculus and ordinary differential equations (ODE) skills
- How to formulate the mathematical problem
- How to find the solutions for engineering problems

You can enroll **HERE**

## 5. AP® Calculus BC via edx, by Davidson Next

**Required Effort:** 11 Weeks, 2-4 hours per week.

**Total Students Enrolled:** 5,291+

**Cost:** Free

**Level:** Introductory

In this calculus course, you will learn all the Calculus BC topics that are not part of the AP® Calculus AB curriculum by engaging with video instruction, exam-style questions and interactive activities.

Each topic is broken up into bite-sized pieces—with short instructional videos,…[ReadMore](https://www.edx.org/course/davidsonnextcal_ap_bcx?utm_source=coursewire-course-wire&utm_medium=affiliate_partner)

**Why Choose This Course:**

- Mastery of concepts from the AP® Calculus BC curriculum
- Build confidence in the material as you learn concepts from experienced AP® Calculus teachers
- Build graphical intuition through interactive graphing
- Practice for your exam with graded exam-style questions (with explanations)

You can enroll **HERE**

## 6. Calculus Applied! via edx, by Harvard University

**Required Effort:** 10 Weeks, 3-6 hours per week.

**Total Students Enrolled:** 42,726+

**Cost:** Free

**Level:** Intermediate

In this course, we go beyond the calculus textbook, working with practitioners in social, life and physical sciences to understand how calculus and mathematical models play a role in their work.

Through a series of case studies, you’ll learn:

- How standardized test…[ReadMore](https://www.edx.org/course/harvardxcalcapl1x?utm_source=coursewire-course-wire&utm_medium=affiliate_partner)
**Why Choose This Course:**- Authentic examples and case studies of how calculus is applied to problems in other fields
- How to analyze mathematical models, including variables, constants, and parameters
- Appreciation for the assumptions and complications that go into modeling real world situations with mathematics

You can enroll

**HERE**## 7. Calculus 1B: Integration via edx, by Massachusetts Institute of Technology

**Required Effort:**15 Weeks, 6-10 hours per week.

**Total Students Enrolled:**38,112+

**Cost:**Free

**Level:**IntermediateHow long should the handle of your spoon be so that your fingers do not burn while mixing chocolate fondue? Can you find a shape that has finite volume, but infinite surface area? How does the weight of the rider change the trajectory of a zip line ride? These and many other questions can be…[ReadMore](https://www.edx.org/course/mitx18012x?utm_medium=affiliate_partner&utm_source=coursewire-course-wire)

**Why Choose This Course:**- Some differential equation models for physical phenomena and solutions
- The geometric interpretation, and physical meaning of the integral
- The connection of the integral to the derivative
- Several methods of numerically and symbolically integrating functions
- To apply integrals to solve real world problems

You can enroll

**HERE**## 8. Calculus 1C: Coordinate Systems & Infinite Series via edx, by Massachusetts Institute of Technology

**Required Effort:**10 Weeks, 6-10 hours per week.

**Total Students Enrolled:**25,406+

**Cost:**Free

**Level:**IntermediateHow did Newton describe the orbits of the planets? To do this, he created calculus. But he used a different coordinate system more appropriate for planetary motion. We will learn to shift our perspective to do calculus with parameterized curves and polar coordinates. And then we will dive deep…[ReadMore](https://www.edx.org/course/mitx18013x?utm_medium=affiliate_partner&utm_source=coursewire-course-wire)

**Why Choose This Course:**- To compute arc length
- Methods for parameterizing curves
- To do calculus in polar coordinates
- How to approximate functions with Taylor polynomials
- To determine convergence properties of infinite series

You can enroll

**HERE**## 9. A-level Mathematics for Year 12 – Course 2: Calculus, Newton’s Laws and Hypothesis Testing via edx, by Imperial College London

**Required Effort:**7 Weeks, 2-4 hours per week.

**Total Students Enrolled:**2,923+

**Cost:**Free

**Level:**Intermediate

This course by Imperial College London is designed to help you develop the skills you need to succeed in your A-level mathematics exams. You’ll also be encouraged to consider how what you know fits into the wider mathematical world.Over seven modules, covering an…ReadMore

**Why Choose This Course:**- How to differentiate a number exponential functions
- How to apply differentiation to find stationary points
- How to find the equations of tangents and normals to curves
- How to model growth and decay using the exponential function
- How to manipulate expressions involving indices by using logarithms
- How to integrate an exponential function
- How to use integration to find the equation of a curve from its gradient function
- How to use integration to find the area enclosed by a curve
- How to use Newton’s laws to solve problems involving forces
- How to use the Binomial probability distribution to find the probability of a number of successes in a series of statistical trials
- How to define a statistical hypothesis test using the binomial distribution.

You can enroll

**HERE**