Presentation is loading. Please wait.

Presentation is loading. Please wait.

Average Value of a Function. Let’s get started: You already know how to take the average of some finite set. The "mean" is the "average" you're used to,

Published byKimberly Wren Modified over 7 years ago

Similar presentations

Presentation on theme: "Average Value of a Function. Let’s get started: You already know how to take the average of some finite set. The "mean" is the "average" you're used to,"— Presentation transcript:

1 Average Value of a Function

2 Let’s get started: You already know how to take the average of some finite set. The "mean" is the "average" you're used to, where you add up all the numbers and then divide by the number of numbers. Average = x = x 1 + x 2 + x 3 + …. + x n n

3 What if you need to find the average over infinitely many values (those that the function takes on over some interval) Must use CALCULUS! Before I show how to do this…let’s talk about WHY we might want to do this?

4 Consider the following picture: How high would the water level be if the waves all settled?

5 Okay! So, now that you have seen that this an interesting question... Let’s forget about real life, and... Do Some Math

6 Suppose we have a “nice”function and we need to find its average value over the interval [a,b].

7 Let’s apply our knowledge of how to find the average over a finite set of values to this problem: First, we partition the interval [a,b] into n subintervals of equal length to get back to the finite situation: In the above graph, we have n=8

8 Let us set up our notation: comes from the i-th interval Now we can get an estimate for the average value:

9 Let’s try to clean this up a little: Since

10 In a more condensed form, we now get: But we want to get out of the finite, and into the infinite! How do we do this? Take Limits!!!

11 In this way, we get the average value of f(x) over the interval [a,b]: So, if f is a “nice” function (i.e. we can compute its integral) then we have a precise solution to our problem.

12 Let’s look back at our graph:

13 So we’ve solved our problem! If I give you the equation and ask you to find it’s average value over the interval [0,2], you’ll all say NO PROBLEM!!!! the answer is…

14

15 Now we can answer our fish tank question! (That is, if the waves were described by an integrable function)

Download ppt "Average Value of a Function. Let’s get started: You already know how to take the average of some finite set. The "mean" is the "average" you're used to,"

Similar presentations

Average Value of a Function

Average Value of a Function
Solving an Absolute Value Equation

Solving an Absolute Value Equation
APPLICATIONS OF INTEGRATION

APPLICATIONS OF INTEGRATION
5.2 Definite Integrals Quick Review Quick Review Solutions.

5.2 Definite Integrals Quick Review Quick Review Solutions.
Integration Antidfferentiation

Integration Antidfferentiation
5.2 Definite Integrals. Subintervals are often denoted by  x because they represent the change in x …but you all know this at least from chemistry class,

5.2 Definite Integrals. Subintervals are often denoted by  x because they represent the change in x …but you all know this at least from chemistry class,
Section 4.1 – Antiderivatives and Indefinite Integration.

Section 4.1 – Antiderivatives and Indefinite Integration.
Alg. I - 3.6 Practice. |x+4|+ 3 = 17 |x+4|= 14 or x+4 = -14 x+4 = 14 x = 10or x = -18.

Alg. I Practice. |x+4|+ 3 = 17 |x+4|= 14 or x+4 = -14 x+4 = 14 x = 10or x = -18.
Calculus: The Key Ideas (9/3/08) What are the key ideas of calculus? Let’s review and discuss. Today we review the concepts of definite integral, antiderivative,

Calculus: The Key Ideas (9/3/08) What are the key ideas of calculus? Let’s review and discuss. Today we review the concepts of definite integral, antiderivative,
MAT 212 Brief Calculus Section 5.4 The Definite Integral.

MAT 212 Brief Calculus Section 5.4 The Definite Integral.
FRIDAY, FEBRUARY 13, 2015 6.1.1 SOLVING TRIG EQUATIONS.

FRIDAY, FEBRUARY 13, SOLVING TRIG EQUATIONS.
1/12/2016HL Math - Santowski1 Lesson 50 – Area Between Curves HL Math- Santowski.

1/12/2016HL Math - Santowski1 Lesson 50 – Area Between Curves HL Math- Santowski.
Riemann Sums and The Definite Integral. time velocity After 4 seconds, the object has gone 12 feet. Consider an object moving at a constant rate of 3.

Riemann Sums and The Definite Integral. time velocity After 4 seconds, the object has gone 12 feet. Consider an object moving at a constant rate of 3.
Copyright © Cengage Learning. All rights reserved.

Copyright © Cengage Learning. All rights reserved.
Function Notation. 43210 In addition to level 3.0 and above and beyond what was taught in class, the student may: · Make connection with other concepts.

Function Notation In addition to level 3.0 and above and beyond what was taught in class, the student may: · Make connection with other concepts.
Lesson 5-2 The Definite Integral. Ice Breaker See handout questions 1 and 2.

Lesson 5-2 The Definite Integral. Ice Breaker See handout questions 1 and 2.
Riemann Sum. Formula Step 1 Step 2 Step 3 Riemann Sum.

Riemann Sum. Formula Step 1 Step 2 Step 3 Riemann Sum.
Lecture 19 Approximating Integrals. Integral = “Area”

Lecture 19 Approximating Integrals. Integral = “Area”
1. Graph 2. Find the area between the above graph and the x-axis 3. 4. Find the area of each: 7.

1. Graph 2. Find the area between the above graph and the x-axis Find the area of each: 7.
INTEGRALS 5. INTEGRALS In Chapter 3, we used the tangent and velocity problems to introduce the derivative—the central idea in differential calculus.

INTEGRALS 5. INTEGRALS In Chapter 3, we used the tangent and velocity problems to introduce the derivative—the central idea in differential calculus.

Similar presentations

Ads by Google