Created on: September 11, 2014

Website Address: https://library.curriki.org/oer/Curriki-Calculus-Integrals

TABLE OF CONTENTS

- Curriki Project Based Geometry
- Curriki Calculus: Applications of Derivatives
- Curriki Calculus: Integrals

- Selling Geometry
- Designing a Winner
- What's Your Angle, Pythagoras?
- TED Talk: House of the Future
- The Art of Triangles
- How Random Is My Life?
- Introduction to Angles
- Lesson -- Drawing right triangles from word problems
- Accessing Curriki Geometry Projects
- Introduction to Curriki Geometry

- TED Talk: House of the Future Resources
- Kid TED Talks
- Curriki Geometry Tools and Resources
- TED Talk: House of the Future Teacher Edition
- TED Talk: House of the Future Student Edition

- Additional Resources
- TED Talks
- Kid TED Talks
- TED Talk: Creative Houses from Reclaimed Stuff
- Creativity in Schools
- How to Build Your Creative Confidence
- Khan Academy Resources

- Integrals Table of Contents by Standard
- I.1: Use Rectangle Approximations to Find Approximate Values of Integrals.
- I.2: Calculate the Values of Riemann Sums.
- I.3: Interpret a Definite Integral as a Limit of Riemann Sums.
- I.4: Understand the Fundamental Theorem of Calculus
- I.5: Use the Fundamental Theorem of Calculus.
- I.6: Understand and Use the Properties of Definite Integrals.
- I.7: Understand and Use Integration by Substitution.
- I.8: Understand and Use Riemann Sums and Trapezoidal Sums.

In this, the fourth section of the course, the topics include:

Interpretations and properties of definite integrals

• Definite integral as a limit of Riemann sums.

• Definite integral of the rate of change of a quantity over an interval interpreted as the change of the quantity over the interval.

• Basic properties of definite integrals (examples include additivity and linearity).

Fundamental Theorem of Calculus

• Use of the Fundamental Theorem to evaluate definite integrals.

• Use of the Fundamental Theorem to represent a particular antiderivative and

the analytical and graphical analysis of functions so defined.

Techniques of antidifferentiation

• Antiderivatives following directly from derivatives of basic functions.

• Antiderivatives by substitution of variables (including change of limits for

definite integrals).

Numerical approximations to definite integrals.

• Use of Riemann sums (using left, right, and midpoint evaluation points) and

trapezoidal sums to approximate definite integrals of functions represented

algebraically, graphically, and by tables of values.

Resources in this section listed by standard.

Use rectangle approximations to find approximate values of integrals.

Calculate the values of Riemann Sums over equal subdivisions using left, right, and midpoint evaluation points.

Interpret a definite integral as a limit of Riemann Sums.

Understand the Fundamental Theorem of Calculus: Interpret the definite integral of the rate of change of a quantity over an interval as the accumulation of change of the quantity over the interval.

Use the Fundamental Theorem of Calculus to evaluate definite and indefinite integrals and to represent particular antiderivatives. Perform analytical and graphical analysis of functions so defined.

Understand and use the properties of definite integrals.

Understand and use integration by substitution (or change of variable) to find values of integrals.

Understand and use Riemann Sums and trapezoidal sums, and technology to approximate definite integrals of functions represented algebraically, geometrically, and by tables of values.