Presentation is loading. Please wait.

Presentation is loading. Please wait.

MATH 1311 Section 6.3.

Published byYulia Darmali Modified over 6 years ago

Similar presentations

Presentation on theme: "MATH 1311 Section 6.3."β€” Presentation transcript:

1 MATH 1311 Section 6.3

2 Estimating Rates of Change
As seen earlier in the course, we can estimate a rate of change by using the Average Rate of Change formula: 𝐴𝑅𝑂𝐢= πΆβ„Žπ‘Žπ‘›π‘”π‘’ 𝑖𝑛 π‘¦βˆ’π‘£π‘Žπ‘™π‘’π‘’ πΆβ„Žπ‘Žπ‘›π‘”π‘’ 𝑖𝑛 π‘₯βˆ’π‘£π‘Žπ‘™π‘’π‘’

3 Example: The data from an airplane gives the distance from Los Angeles at two different time intervals: Use this data to calculate the average velocity of the airplane, then estimate its distance from L.A. at the 1:20 pm. Note: this method will only give estimated values in most cases.

4 Example: Water is leaking from a tank. The amount of water remaining in the tank is given in the table as a function of hours. Explain the meaning of dW/dt in terms of this problem. Estimate the value of dW/dt when t = 6 using the time interval [3, 6] and [6,9]. What can you say about how fast water is leaking from the tank based on these figures?

5 Example: Water is leaking from a tank. The amount of water remaining in the tank is given in the table as a function of hours. Explain the meaning of dW/dt in terms of this problem. Estimate the value of dW/dt when t = 6 using the time interval [3, 6] and [6,9]. Use each of these values of dW/dt to estimate the amount of water in the tank at t = 8.

6 Rates of Change for Functions given by Formulas
If you are given a formula and wish to determine the rate of change at a specific value, you want to create your own table close to that data point (usually less than 1 unit away to ensure accuracy). Then, repeat the process that was just performed.

7 Example: The amount of cells in a bacteria colony is increasing at a rate given by the formula: b(t) = 3500 e2t where t is measured in hours. Describe in words the meaning of the db/dt for this situation. Calculate the value for db/dt close to t = 5. Use t = 5 and t = for your calculations. Use this value to estimate the number of cells in the colony for after 5 hours and 15 minutes.

8 Popper 30: The profit that a company makes for producing n-items is given by the formula: p(n) = 12n2 – 60n. Calculate the value of dp/dn for n = 2.5 using values of [2.499, 2.5]. a. 0 b c d. 76 2. Use this to estimate the profit for producing n = 3 items. a b c d. 0 3. Calculate the value of dp/dn for n = 2.5 using values of [2.5, 2.501]. a. 0 b c d. 1.0 4. Use this to estimate the profit for producing n = 3 items.

9 Popper 30…continued. 5. What does this tell you about the value of n = 2.5 in this situation? The graph of p(n) has a turning point at approximately n = 2.5 There is a discontinuity in the graph at n = 2.5 There is no way to determine information from the AROC at n = 2.5 The function never attains positive values.

Download ppt "MATH 1311 Section 6.3."

Similar presentations

You WANT me to make a paper airplane??? A lesson in calculating the speed of an object.

You WANT me to make a paper airplane??? A lesson in calculating the speed of an object.
MEASUREMENT 1.4.

MEASUREMENT 1.4.
Homework Homework Assignment #4 Read Section 5.5

Homework Homework Assignment #4 Read Section 5.5
Homework Homework Assignment #13 Review Section 6.2 Page 389, Exercises: 25 – 33(EOO), 35 Rogawski Calculus Copyright Β© 2008 W. H. Freeman and Company.

Homework Homework Assignment #13 Review Section 6.2 Page 389, Exercises: 25 – 33(EOO), 35 Rogawski Calculus Copyright Β© 2008 W. H. Freeman and Company.
A cardiac monitor is used to measure the heart rate of a patient after surgery. It compiles the number of heartbeats after t minutes. When the data in.

A cardiac monitor is used to measure the heart rate of a patient after surgery. It compiles the number of heartbeats after t minutes. When the data in.
5.3 Rate of Change and Slope 5.4 The Slope Formula

5.3 Rate of Change and Slope 5.4 The Slope Formula
Check it out! 1.3.1: Creating and Graphing Linear Equations in Two Variables 1.

Check it out! 1.3.1: Creating and Graphing Linear Equations in Two Variables 1.
Section 1.3 Linear Function. Last section we discussed average rate of change over a certain interval When a function has a constant rate of change (i.e.

Section 1.3 Linear Function. Last section we discussed average rate of change over a certain interval When a function has a constant rate of change (i.e.
Chapter 5 – Integrals 5.1 Areas and Distances Dr. Erickson

Chapter 5 – Integrals 5.1 Areas and Distances Dr. Erickson
MEASUREMENT. Chapter One: Measurement οƒ˜ 1.1 Measurements οƒ˜ 1.2 Time and Distance οƒ˜ 1.3 Converting Measurements οƒ˜ 1.4 Working with Measurements.

MEASUREMENT. Chapter One: Measurement οƒ˜ 1.1 Measurements οƒ˜ 1.2 Time and Distance οƒ˜ 1.3 Converting Measurements οƒ˜ 1.4 Working with Measurements.
Rate of Change and Slope. Warm Up Solve each proportion for x.

Rate of Change and Slope. Warm Up Solve each proportion for x.
Time (days)Distance (meters) 00 675 The table shows the movement of a glacier over six days.

Time (days)Distance (meters) The table shows the movement of a glacier over six days.
Warm Up Turn your homework into the box BEFORE the 7:15 bell! We will start the quiz immediately.

Warm Up Turn your homework into the box BEFORE the 7:15 bell! We will start the quiz immediately.
Section 1: Describing Motion. Speed Speed is how far you travel over a period of time. Speed is expressed in the formula s=d/t (speed = distance/time).

Section 1: Describing Motion. Speed Speed is how far you travel over a period of time. Speed is expressed in the formula s=d/t (speed = distance/time).
VELOCITY & ACCELERATION VELOCITY *Describes both the speed & direction of an object.

VELOCITY & ACCELERATION VELOCITY *Describes both the speed & direction of an object.
INTEGRALS We saw in Section 5.1 that a limit of the form arises when we compute an area. We also saw that it arises when we try to find the distance traveled.

INTEGRALS We saw in Section 5.1 that a limit of the form arises when we compute an area. We also saw that it arises when we try to find the distance traveled.
Section 2.1 – Average and Instantaneous Velocity.

Section 2.1 – Average and Instantaneous Velocity.
2.1.1 Calling Plans day 4 calling cards Unit 2: Linear Relationships SWBAT: Compare calling plans by using graphs, tables, and equations.

2.1.1 Calling Plans day 4 calling cards Unit 2: Linear Relationships SWBAT: Compare calling plans by using graphs, tables, and equations.
Day 1 Integrals as Net Change Particle Motion. A honey bee makes several trips from his hive to a flower garden traveling at a constant speed of 100 ft/min.

Day 1 Integrals as Net Change Particle Motion. A honey bee makes several trips from his hive to a flower garden traveling at a constant speed of 100 ft/min.
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,

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

Ads by Google