Calculus II (Integral Calculus)
4.7 (46 ratings)
1,473 students enrolled

# Calculus II (Integral Calculus)

Videos on a second course in calculus (Integral Calculus).
4.7 (46 ratings)
1,473 students enrolled
Created by Math Fortress
Last updated 11/2018
English
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Current price: \$13.99 Original price: \$19.99 Discount: 30% off
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This course includes
• 2 hours on-demand video
• Access on mobile and TV
• Certificate of Completion
Training 5 or more people?

What you'll learn
• Fortify your understanding of Calculus II.
Requirements
• Calculus I (Differential Calculus)
Description

The course includes several techniques of integration, improper integrals, antiderivatives, application of the definite integral, differential equations, and approximations using Taylor polynomials and series. This course is required of engineering, physics, and mathematics majors.

This course contains a series of video tutorials that are broken up into various levels. Each video builds upon the previous one. Level I videos lay out the theoretical frame work to successfully tackle on problems covered in the next videos.

These videos can be used as a stand along course or as a supplement to your current calculus II course.

This course is consistently being populated with new videos.

This course is for anyone who wants to fortify their understanding of calculus II or anyone that wishes to learn calculus II can benefit from this course.

This course is consistently monitored ready to reply to any questions that may arise.

Who this course is for:
• College Students
Course content
Expand all 15 lectures 01:46:15
+ Introduction
1 lecture 00:40

This video gives an overview of what this course will cover.

Preview 00:40
+ Integration By Parts
2 lectures 14:25
This video goes over a second integration technique used to find indefinite integrals formed by a product of functions. This video goes over the derivation of the integration by parts formula by using the product rule as a starting point. In addition, the video goes over an example covering the application of this new integration technique.
Preview 07:30
This video goes over 3 examples, covering the proper way to use the integration by parts formula. This video includes an example covering the two forms of the integration by parts formula, an example where rewriting of the integrand is required, and a final example where an integral contains a single function.
Preview 06:55
+ Integration By Parts: Tabular Method
3 lectures 17:19
This video goes over 2 examples, covering the proper way to find integrals that require the repeated application of the integration by parts formula. In addition, the tabular method for integration by parts is also introduced.
Integration By Parts (Level 3): Tabular Method
06:29
This video goes over an example, covering the proper way to find integrals that require the repeated application of the integration by parts formula specifically an integral that generates a constant multiple of the original integral. In addition, this integral will also be found by using the tabular method for integration by parts.
Integration By Parts (Level 4): Tabular Method
04:16
This video goes over three examples, covering the proper way to find definite integrals that require the application of the integration by parts formula. An example covering the tabular method is also presented.
Integration By Parts (Level 5): Tabular Method
06:34
+ Multiple Integration Techniques
1 lecture 07:04
This video goes over two examples, covering the proper way to find definite integrals that require the use of multiple integration techniques. Specifically, integration by parts and u-substitution.
Integration By Parts (Level 6): Multiple Integration Techniques
07:04
+ Trigonometric Integrals
3 lectures 27:50
This video is an introduction to solving trigonometric integrals that contain combinations of trigonometric functions. Specifically, those that contain powers of sine and cosine. This video covers 4 basic examples illustrating the case when the power of cosine is odd.
Preview 10:31
This video is an introduction to solving trigonometric integrals that contain combinations of trigonometric functions. Specifically, those that contain powers of sine and cosine. This video covers 4 basic examples illustrating the case when the power of sine is odd.
Trigonometric Integrals (Level 2)
10:53
This video is an introduction to solving trigonometric integrals that contain combinations of trigonometric functions. Specifically, those that contain powers of sine and cosine. This video covers 1 basic example illustrating the case when the power of sine and cosine are odd.
Trigonometric Integrals (Level 3)
06:26
+ Even Powers
2 lectures 19:18
This video is an introduction to solving trigonometric integrals that contain combinations of trigonometric functions. Specifically, those that contain powers of sine and cosine. This video covers 2 basic example illustrating the case when the power of sine and cosine are even.
Trigonometric Integrals (Level 4): Even Powers
09:48
This video continues illustrating methods in solving trigonometric integrals that contain combinations of trigonometric functions. Specifically, those that contain powers of sine and cosine. This video covers 2 challenging examples illustrating the case when the power of sine and cosine are even.
Trigonometric Integrals (Level 5): Even Powers
09:30
+ Distinct Arguments
2 lectures 19:05
This video continues illustrating methods for solving trigonometric integrals that contain combinations of trigonometric functions. Specifically, those that contain products of sine and cosine with distinct arguments (angles). This video covers 3 examples illustrating the use of the product to sum identities for sine and cosine.
Trigonometric Integrals (Level 6): Distinct Argument
09:17
This video concludes the methods for solving trigonometric integrals that contain combinations of sine and cosine. This video covers 4 challenging examples that require the use of different trigonometric identities, multiplying by the conjugate, and factoring.
Trigonometric Integrals (Level 7): Distinct Argument
09:48
+ Conclusion
1 lecture 00:34

This video gives an overview of what was taught in this course.

Conclusion
00:34