Presentation is loading. Please wait.

Presentation is loading. Please wait.

Related Rates SOL APC.8c Luke Robbins, Sara Lasker, Michelle Bousquet.

Published byKelley Paul Modified over 9 years ago

Similar presentations

Presentation on theme: "Related Rates SOL APC.8c Luke Robbins, Sara Lasker, Michelle Bousquet."— Presentation transcript:

1 Related Rates SOL APC.8c Luke Robbins, Sara Lasker, Michelle Bousquet

2 Steps to Solve any Related Rates Problem 1)Draw and label a diagram to visually represent the problem. 2)Define the variables. 3)List the givens and the unknown(s). 4)Brainstorm possible geometric or algebraic relationships between the variables and choose the relationship that contains all the givens and the unknown(s). 5)Differentiate the equation implicitly with respect to time. 6)Solve for the unknown variable(s). 7)Interpret the solution in the context of the problem.

3 The Problem

4 This diagram represents the ladder leaning against a wall. The wall has a 90 degree angle with the ground. Step 1) Draw and label a diagram to visually represent the problem. 10 feet/second 20 feet 5 feet

5 Step 2) Define the variables. x y z = 20 feet

6 Step 3) List the givens and the unknown(s). x = ? y = 5 feet z = 20 feet

7 x = ? y = 5 feet z = 20 feet Step 4) Brainstorm possible geometric or algebraic relationships between the variables and choose the relationship that contains all the givens and the unknown.

8 x = ? y = 5 feet z = 20 feet Step 4) Brainstorm possible geometric or algebraic relationships between the variables and choose the relationship that contains all the givens and the unknown. We choose this relationship because it and its derivative include all givens and the unknown.

9 5) Differentiate the equation implicitly with respect to time. x = ? y = 5 feet z = 20 feet Geometric Relationship

10 5) Differentiate the equation implicitly with respect to time. x = ? y = 5 feet z = 20 feet We know that z is constant, so we can plug in the value of z.

11 5) Differentiate the equation implicitly with respect to time. x = ? y = 5 feet z = 20 feet We derive the equation with respect to time, t.

12 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet At this point, we have two unknowns. Luckily we can calculate x with the original equation.

13 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet We will isolate x in the original equation as an intermediate solution.

14 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet We substitute in y to find what x is when y=5 feet.

15 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet

16 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet

17 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet

18 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet

19 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet

20 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet

21 6) Solve for the unknown variable. x = ? y = 5 feet z = 20 feet

22 7) Interpret the solution in the context of the problem. x = ? y = 5 feet z = 20 feet

Download ppt "Related Rates SOL APC.8c Luke Robbins, Sara Lasker, Michelle Bousquet."

Similar presentations

1 Related Rates Section 2.6. 2 Related Rates (Preliminary Notes) If y depends on time t, then its derivative, dy/dt, is called a time rate of change.

1 Related Rates Section Related Rates (Preliminary Notes) If y depends on time t, then its derivative, dy/dt, is called a time rate of change.
Solve a System Algebraically

Solve a System Algebraically
4.6 Related Rates.

4.6 Related Rates.
Related Rates TS: Explicitly assessing information and drawing conclusions.

Related Rates TS: Explicitly assessing information and drawing conclusions.
Related Rates Kirsten Maund Dahlia Sweeney Background Calculus was invented to predict phenomena of change: planetary motion, objects in freefall, varying.

Related Rates Kirsten Maund Dahlia Sweeney Background Calculus was invented to predict phenomena of change: planetary motion, objects in freefall, varying.
1. Read the problem, pull out essential information and identify a formula to be used. 2. Sketch a diagram if possible. 3. Write down any known rate of.

1. Read the problem, pull out essential information and identify a formula to be used. 2. Sketch a diagram if possible. 3. Write down any known rate of.
Objectives: 1.Be able to find the derivative of an equation with respect to various variables. 2.Be able to solve various rates of change applications.

Objectives: 1.Be able to find the derivative of an equation with respect to various variables. 2.Be able to solve various rates of change applications.
Related Rates Objective: To find the rate of change of one quantity knowing the rate of change of another quantity.

Related Rates Objective: To find the rate of change of one quantity knowing the rate of change of another quantity.
Differential Equations Separable Examples Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.

Differential Equations Separable Examples Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.
Warm Up. 7.4 A – Separable Differential Equations Use separation and initial values to solve differential equations.

Warm Up. 7.4 A – Separable Differential Equations Use separation and initial values to solve differential equations.
Solving Systems of three equations with three variables Using substitution or elimination.

Solving Systems of three equations with three variables Using substitution or elimination.
Definition: When two or more related variables are changing with respect to time they are called related rates Section 2-6 Related Rates.

Definition: When two or more related variables are changing with respect to time they are called related rates Section 2-6 Related Rates.
Sec 2.6 – Marginals and Differentials 2012 Pearson Education, Inc. All rights reserved Let C(x), R(x), and P(x) represent, respectively, the total cost,

Sec 2.6 – Marginals and Differentials 2012 Pearson Education, Inc. All rights reserved Let C(x), R(x), and P(x) represent, respectively, the total cost,
The Pythagorean Theorem. 8/18/20152 The Pythagorean Theorem “For any right triangle, the sum of the areas of the two small squares is equal to the area.

The Pythagorean Theorem. 8/18/20152 The Pythagorean Theorem “For any right triangle, the sum of the areas of the two small squares is equal to the area.
Related Rates M 144 Calculus I V. J. Motto. The Related Rate Idea A related rates problem is a problem which involves at least two changing quantities.

Related Rates M 144 Calculus I V. J. Motto. The Related Rate Idea A "related rates" problem is a problem which involves at least two changing quantities.
Unit 1.3 USE YOUR CALCULATOR!!!.

Unit 1.3 USE YOUR CALCULATOR!!!.
Inverse Matrices and Systems

Inverse Matrices and Systems
3.9 Related Rates 1. Example Assume that oil spilled from a ruptured tanker in a circular pattern whose radius increases at a constant rate of 2 ft/s.

3.9 Related Rates 1. Example Assume that oil spilled from a ruptured tanker in a circular pattern whose radius increases at a constant rate of 2 ft/s.
3-2 Solving Equations by Using Addition and Subtraction Objective: Students will be able to solve equations by using addition and subtraction.

3-2 Solving Equations by Using Addition and Subtraction Objective: Students will be able to solve equations by using addition and subtraction.
Ch 4.6 Related Rates Graphical, Numerical, Algebraic by Finney Demana, Waits, Kennedy.

Ch 4.6 Related Rates Graphical, Numerical, Algebraic by Finney Demana, Waits, Kennedy.

Similar presentations

Ads by Google