SlideShare una empresa de Scribd logo

Lesson 13: Related Rates Problems

Mel Anthony Pepito
Mel Anthony Pepito
Tecnología
1 de 32
Descargar para leer sin conexión
Section 2.7 Related Rates V63.0121.002.2010Su, Calculus I New York University May 27, 2010 Announcements No class Monday, May 31 Assignment 2 due Tuesday, June 1 . . . . . .
Announcements No class Monday, May 31 Assignment 2 due Tuesday, June 1 . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 2 / 18
Objectives Use derivatives to understand rates of change. Model word problems . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 3 / 18
What are related rates problems? Today we’ll look at a direct application of the chain rule to real-world problems. Examples of these can be found whenever you have some system or object changing, and you want to measure the rate of change of something related to it. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 4 / 18
Problem Example An oil slick in the shape of a disk is growing. At a certain time, the radius is 1 km and the volume is growing at the rate of 10,000 liters per second. If the slick is always 20 cm deep, how fast is the radius of the disk growing at the same time? . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 5 / 18
A solution Solution The volume of the disk is V = πr2 h. . r . dV We are given , a certain h . dt value of r, and the object is to dr find at that instant. dt . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 6 / 18
Solution Differentiating V = πr2 h with respect to time we have 0 dV dr dh¡ ! = 2πrh + πr2 ¡ dt dt ¡dt . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 7 / 18
Solution Differentiating V = πr2 h with respect to time we have 0 dV dr dh¡ ! dr 1 dV = 2πrh + πr2 ¡ =⇒ = · . dt dt ¡dt dt 2πrh dt . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 7 / 18
Solution Differentiating V = πr2 h with respect to time we have 0 dV dr dh¡ ! dr 1 dV = 2πrh + πr2 ¡ =⇒ = · . dt dt ¡dt dt 2πrh dt Now we evaluate: dr 1 10, 000 L = · dt r=1 km 2π(1 km)(20 cm) s . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 7 / 18
Solution Differentiating V = πr2 h with respect to time we have 0 dV dr dh¡ ! dr 1 dV = 2πrh + πr2 ¡ =⇒ = · . dt dt ¡dt dt 2πrh dt Now we evaluate: dr 1 10, 000 L = · dt r=1 km 2π(1 km)(20 cm) s Converting every length to meters we have dr 1 10 m3 1 m = · = dt r=1 km 2π(1000 m)(0.2 m) s 40π s . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 7 / 18
Outline Strategy Examples . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 8 / 18
Strategies for Problem Solving 1. Understand the problem 2. Devise a plan 3. Carry out the plan 4. Review and extend György Pólya (Hungarian, 1887–1985) . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 9 / 18
Strategies for Related Rates Problems . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
Strategies for Related Rates Problems 1. Read the problem. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) 4. Express the given information and the required rate in terms of derivatives . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) 4. Express the given information and the required rate in terms of derivatives 5. Write an equation that relates the various quantities of the problem. If necessary, use the geometry of the situation to eliminate all but one of the variables. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) 4. Express the given information and the required rate in terms of derivatives 5. Write an equation that relates the various quantities of the problem. If necessary, use the geometry of the situation to eliminate all but one of the variables. 6. Use the Chain Rule to differentiate both sides with respect to t. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) 4. Express the given information and the required rate in terms of derivatives 5. Write an equation that relates the various quantities of the problem. If necessary, use the geometry of the situation to eliminate all but one of the variables. 6. Use the Chain Rule to differentiate both sides with respect to t. 7. Substitute the given information into the resulting equation and solve for the unknown rate. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
Outline Strategy Examples . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 11 / 18
Another one Example A man starts walking north at 4ft/sec from a point P. Five minutes later a woman starts walking south at 4ft/sec from a point 500 ft due east of P. At what rate are the people walking apart 15 min after the woman starts walking? . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 12 / 18
Diagram 4 . ft/sec . m . . P . . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
Diagram 4 . ft/sec . m . . 5 . 00 P . w . 4 . ft/sec . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
Diagram 4 . ft/sec . . s m . . 5 . 00 P . w . 4 . ft/sec . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
Diagram 4 . ft/sec . . s m . . 5 . 00 P . w . w . 5 . 00 4 . ft/sec . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
Diagram 4 . ft/sec √ . . s m . s . = (m + w)2 + 5002 . 5 . 00 P . w . w . 5 . 00 4 . ft/sec . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
Expressing what is known and unknown 15 minutes after the woman starts walking, the woman has traveled ( )( ) 4ft 60sec (15min) = 3600ft sec min while the man has traveled ( )( ) 4ft 60sec (20min) = 4800ft sec min ds dm dw We want to know when m = 4800, w = 3600, = 4, and = 4. dt dt dt . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 14 / 18
Differentiation We have ( ) ds 1( 2 2 )−1/2 dm dw = (m + w) + 500 (2)(m + w) + dt 2 dt dt ( ) m + w dm dw = + s dt dt At our particular point in time ds 4800 + 3600 672 =√ (4 + 4) = √ ≈ 7.98587ft/s dt 2 + 5002 7081 (4800 + 3600) . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 15 / 18
An example from electricity Example If two resistors with resistances R1 and R2 are connected in parallel, as in the figure, then . . the total resistance R, measured in Ohms (Ω), is given R . 1 R . 2 by . . 1 1 1 = + R R1 R2 (a) Suppose R1 = 80 Ω and R2 = 100 Ω. What is R? (b) If at some point R′ = 0.3 Ω/s and R′ = 0.2 Ω/s, what is R′ at the 1 2 same time? . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 16 / 18
Solution Solution R1 R2 80 · 100 4 (a) R = = = 44 Ω. R1 + R2 80 + 100 9 (b) Differentiating the relation between R1 , R2 , and R we get 1 1 1 − 2 R′ = − R′ − 1 R′ 2 R R2 1 R2 2 So when R′ = 0.3 Ω/s and R′ = 0.2 Ω/s, 1 2 ( ) ( ) ′ 2 R′ 1 R′2 R2 R2 1 2 R′ 1 R′2 R =R + = + R2 R2 1 2 (R1 + R2 )2 R2 R2 1 2 ( )2 ( ) 400 3/10 2/10 107 = 2 + 2 = ≈ 0.132098 Ω/s 9 80 100 810 . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 17 / 18
Summary Related Rates problems are an application of the chain rule to modeling Similar triangles, the Pythagorean Theorem, trigonometric functions are often clues to finding the right relation. Problem solving techniques: understand, strategize, solve, review. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 18 / 18

Recomendados

Lesson 15: Exponential Growth and Decay
Lesson 15: Exponential Growth and DecayLesson 15: Exponential Growth and Decay
Lesson 15: Exponential Growth and DecayMatthew Leingang
 
Lesson 15: Exponential Growth and Decay (handout)
Lesson 15: Exponential Growth and Decay (handout)Lesson 15: Exponential Growth and Decay (handout)
Lesson 15: Exponential Growth and Decay (handout)Matthew Leingang
 
Lesson 16: Exponential Growth and Decay
Lesson 16: Exponential Growth and DecayLesson 16: Exponential Growth and Decay
Lesson 16: Exponential Growth and DecayMatthew Leingang
 
Lesson 15: Exponential Growth and Decay (Section 041 slides)
Lesson 15: Exponential Growth and Decay (Section 041 slides)Lesson 15: Exponential Growth and Decay (Section 041 slides)
Lesson 15: Exponential Growth and Decay (Section 041 slides)Matthew Leingang
 
Lesson15 -exponential_growth_and_decay_021_slides
Lesson15 -exponential_growth_and_decay_021_slidesLesson15 -exponential_growth_and_decay_021_slides
Lesson15 -exponential_growth_and_decay_021_slidesMatthew Leingang
 
Chapter 2 pertubation
Chapter 2 pertubationChapter 2 pertubation
Chapter 2 pertubationNBER
 
A current perspectives of corrected operator splitting (os) for systems
A current perspectives of corrected operator splitting (os) for systemsA current perspectives of corrected operator splitting (os) for systems
A current perspectives of corrected operator splitting (os) for systemsAlexander Decker
 
Chapter 3 projection
Chapter 3 projectionChapter 3 projection
Chapter 3 projectionNBER
 

Recomendados

Lesson 15: Exponential Growth and Decay
Lesson 15: Exponential Growth and DecayLesson 15: Exponential Growth and Decay
Lesson 15: Exponential Growth and DecayMatthew Leingang
 
Lesson 15: Exponential Growth and Decay (handout)
Lesson 15: Exponential Growth and Decay (handout)Lesson 15: Exponential Growth and Decay (handout)
Lesson 15: Exponential Growth and Decay (handout)Matthew Leingang
 
Lesson 16: Exponential Growth and Decay
Lesson 16: Exponential Growth and DecayLesson 16: Exponential Growth and Decay
Lesson 16: Exponential Growth and DecayMatthew Leingang
 
Lesson 15: Exponential Growth and Decay (Section 041 slides)
Lesson 15: Exponential Growth and Decay (Section 041 slides)Lesson 15: Exponential Growth and Decay (Section 041 slides)
Lesson 15: Exponential Growth and Decay (Section 041 slides)Matthew Leingang
 
Lesson15 -exponential_growth_and_decay_021_slides
Lesson15 -exponential_growth_and_decay_021_slidesLesson15 -exponential_growth_and_decay_021_slides
Lesson15 -exponential_growth_and_decay_021_slidesMatthew Leingang
 
Chapter 2 pertubation
Chapter 2 pertubationChapter 2 pertubation
Chapter 2 pertubationNBER
 
A current perspectives of corrected operator splitting (os) for systems
A current perspectives of corrected operator splitting (os) for systemsA current perspectives of corrected operator splitting (os) for systems
A current perspectives of corrected operator splitting (os) for systemsAlexander Decker
 
Chapter 3 projection
Chapter 3 projectionChapter 3 projection
Chapter 3 projectionNBER
 
Sf math
Sf mathSf math
Sf mathsiscobajio
 
Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)
Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)
Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)Matthew Leingang
 
Lesson 1: Functions
Lesson 1: FunctionsLesson 1: Functions
Lesson 1: FunctionsMatthew Leingang
 
Chapter 5 heterogeneous
Chapter 5 heterogeneousChapter 5 heterogeneous
Chapter 5 heterogeneousNBER
 
Chapter 1 nonlinear
Chapter 1 nonlinearChapter 1 nonlinear
Chapter 1 nonlinearNBER
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential FunctionsLesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential FunctionsMatthew Leingang
 
Lesson 28: Integration by Subsitution
Lesson 28: Integration by SubsitutionLesson 28: Integration by Subsitution
Lesson 28: Integration by SubsitutionMatthew Leingang
 
Chapter 4 likelihood
Chapter 4 likelihoodChapter 4 likelihood
Chapter 4 likelihoodNBER
 
18 Sampling Mean Sd
18 Sampling Mean Sd18 Sampling Mean Sd
18 Sampling Mean SdHadley Wickham
 
Lesson 10: The Chain Rule (Section 21 handout)
Lesson 10: The Chain Rule (Section 21 handout)Lesson 10: The Chain Rule (Section 21 handout)
Lesson 10: The Chain Rule (Section 21 handout)Matthew Leingang
 
Lesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric FunctionsLesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric FunctionsMatthew Leingang
 
Lesson 23: The Definite Integral (handout)
Lesson 23: The Definite Integral (handout)Lesson 23: The Definite Integral (handout)
Lesson 23: The Definite Integral (handout)Matthew Leingang
 
Lecture on solving1
Lecture on solving1Lecture on solving1
Lecture on solving1NBER
 
Lesson 9: The Product and Quotient Rules (Section 21 slides)
Lesson 9: The Product and Quotient Rules (Section 21 slides)Lesson 9: The Product and Quotient Rules (Section 21 slides)
Lesson 9: The Product and Quotient Rules (Section 21 slides)Mel Anthony Pepito
 
KP Compass & Game Theory
KP Compass & Game TheoryKP Compass & Game Theory
KP Compass & Game TheoryNai Wang
 
cvpr2011: game theory in CVPR part 1
cvpr2011: game theory in CVPR part 1cvpr2011: game theory in CVPR part 1
cvpr2011: game theory in CVPR part 1zukun
 
Methods from Mathematical Data Mining (Supported by Optimization)
Methods from Mathematical Data Mining (Supported by Optimization)Methods from Mathematical Data Mining (Supported by Optimization)
Methods from Mathematical Data Mining (Supported by Optimization)SSA KPI
 
Lesson 1: Functions
Lesson 1: FunctionsLesson 1: Functions
Lesson 1: FunctionsMel Anthony Pepito
 
Lesson 10: The Chain Rule (Section 21 slides)
Lesson 10: The Chain Rule (Section 21 slides)Lesson 10: The Chain Rule (Section 21 slides)
Lesson 10: The Chain Rule (Section 21 slides)Mel Anthony Pepito
 
Lesson 17: Indeterminate Forms and L'Hôpital's Rule
Lesson 17: Indeterminate Forms and L'Hôpital's RuleLesson 17: Indeterminate Forms and L'Hôpital's Rule
Lesson 17: Indeterminate Forms and L'Hôpital's RuleMel Anthony Pepito
 
Lesson 11: Implicit Differentiation
Lesson 11: Implicit DifferentiationLesson 11: Implicit Differentiation
Lesson 11: Implicit DifferentiationMel Anthony Pepito
 
Lesson 27: Integration by Substitution (Section 041 slides)
Lesson 27: Integration by Substitution (Section 041 slides)Lesson 27: Integration by Substitution (Section 041 slides)
Lesson 27: Integration by Substitution (Section 041 slides)Mel Anthony Pepito
 

Más contenido relacionado

La actualidad más candente

Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)
Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)
Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)Matthew Leingang
 
Chapter 5 heterogeneous
Chapter 5 heterogeneousChapter 5 heterogeneous
Chapter 5 heterogeneousNBER
 
Chapter 1 nonlinear
Chapter 1 nonlinearChapter 1 nonlinear
Chapter 1 nonlinearNBER
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential FunctionsLesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential FunctionsMatthew Leingang
 
Lesson 28: Integration by Subsitution
Lesson 28: Integration by SubsitutionLesson 28: Integration by Subsitution
Lesson 28: Integration by SubsitutionMatthew Leingang
 
Chapter 4 likelihood
Chapter 4 likelihoodChapter 4 likelihood
Chapter 4 likelihoodNBER
 
Lesson 10: The Chain Rule (Section 21 handout)
Lesson 10: The Chain Rule (Section 21 handout)Lesson 10: The Chain Rule (Section 21 handout)
Lesson 10: The Chain Rule (Section 21 handout)Matthew Leingang
 
Lesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric FunctionsLesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric FunctionsMatthew Leingang
 
Lesson 23: The Definite Integral (handout)
Lesson 23: The Definite Integral (handout)Lesson 23: The Definite Integral (handout)
Lesson 23: The Definite Integral (handout)Matthew Leingang
 
Lecture on solving1
Lecture on solving1Lecture on solving1
Lecture on solving1NBER
 

La actualidad más candente (13)

Sf math
Sf mathSf math
Sf math
 
Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)
Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)
Lesson 13: Exponential and Logarithmic Functions (Section 021 handout)
 
Lesson 1: Functions
Lesson 1: FunctionsLesson 1: Functions
Lesson 1: Functions
 
Chapter 5 heterogeneous
Chapter 5 heterogeneousChapter 5 heterogeneous
Chapter 5 heterogeneous
 
Chapter 1 nonlinear
Chapter 1 nonlinearChapter 1 nonlinear
Chapter 1 nonlinear
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential FunctionsLesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential Functions
 
Lesson 28: Integration by Subsitution
Lesson 28: Integration by SubsitutionLesson 28: Integration by Subsitution
Lesson 28: Integration by Subsitution
 
Chapter 4 likelihood
Chapter 4 likelihoodChapter 4 likelihood
Chapter 4 likelihood
 
18 Sampling Mean Sd
18 Sampling Mean Sd18 Sampling Mean Sd
18 Sampling Mean Sd
 
Lesson 10: The Chain Rule (Section 21 handout)
Lesson 10: The Chain Rule (Section 21 handout)Lesson 10: The Chain Rule (Section 21 handout)
Lesson 10: The Chain Rule (Section 21 handout)
 
Lesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric FunctionsLesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric Functions
 
Lesson 23: The Definite Integral (handout)
Lesson 23: The Definite Integral (handout)Lesson 23: The Definite Integral (handout)
Lesson 23: The Definite Integral (handout)
 
Lecture on solving1
Lecture on solving1Lecture on solving1
Lecture on solving1
 

Destacado

Lesson 9: The Product and Quotient Rules (Section 21 slides)
Lesson 9: The Product and Quotient Rules (Section 21 slides)Lesson 9: The Product and Quotient Rules (Section 21 slides)
Lesson 9: The Product and Quotient Rules (Section 21 slides)Mel Anthony Pepito
 
KP Compass & Game Theory
KP Compass & Game TheoryKP Compass & Game Theory
KP Compass & Game TheoryNai Wang
 
cvpr2011: game theory in CVPR part 1
cvpr2011: game theory in CVPR part 1cvpr2011: game theory in CVPR part 1
cvpr2011: game theory in CVPR part 1zukun
 
Methods from Mathematical Data Mining (Supported by Optimization)
Methods from Mathematical Data Mining (Supported by Optimization)Methods from Mathematical Data Mining (Supported by Optimization)
Methods from Mathematical Data Mining (Supported by Optimization)SSA KPI
 
Lesson 10: The Chain Rule (Section 21 slides)
Lesson 10: The Chain Rule (Section 21 slides)Lesson 10: The Chain Rule (Section 21 slides)
Lesson 10: The Chain Rule (Section 21 slides)Mel Anthony Pepito
 
Lesson 17: Indeterminate Forms and L'Hôpital's Rule
Lesson 17: Indeterminate Forms and L'Hôpital's RuleLesson 17: Indeterminate Forms and L'Hôpital's Rule
Lesson 17: Indeterminate Forms and L'Hôpital's RuleMel Anthony Pepito
 
Lesson 11: Implicit Differentiation
Lesson 11: Implicit DifferentiationLesson 11: Implicit Differentiation
Lesson 11: Implicit DifferentiationMel Anthony Pepito
 
Lesson 27: Integration by Substitution (Section 041 slides)
Lesson 27: Integration by Substitution (Section 041 slides)Lesson 27: Integration by Substitution (Section 041 slides)
Lesson 27: Integration by Substitution (Section 041 slides)Mel Anthony Pepito
 
Lesson 12: Linear Approximation
Lesson 12: Linear ApproximationLesson 12: Linear Approximation
Lesson 12: Linear ApproximationMel Anthony Pepito
 
Lesson 7: The Derivative (Section 21 slide)
Lesson 7: The Derivative (Section 21 slide)Lesson 7: The Derivative (Section 21 slide)
Lesson 7: The Derivative (Section 21 slide)Mel Anthony Pepito
 
Lesson 8: Basic Differentiation Rules (Section 21 slides)
Lesson 8: Basic Differentiation Rules (Section 21 slides) Lesson 8: Basic Differentiation Rules (Section 21 slides)
Lesson 8: Basic Differentiation Rules (Section 21 slides) Mel Anthony Pepito
 
Lesson 6: Limits Involving ∞ (Section 21 slides)
Lesson 6: Limits Involving ∞ (Section 21 slides)Lesson 6: Limits Involving ∞ (Section 21 slides)
Lesson 6: Limits Involving ∞ (Section 21 slides)Mel Anthony Pepito
 
Lesson 5: Continuity (Section 21 slides)
Lesson 5: Continuity (Section 21 slides)Lesson 5: Continuity (Section 21 slides)
Lesson 5: Continuity (Section 21 slides)Mel Anthony Pepito
 
Lesson 14: Derivatives of Exponential and Logarithmic Functions (Section 021 ...
Lesson 14: Derivatives of Exponential and Logarithmic Functions (Section 021 ...Lesson 14: Derivatives of Exponential and Logarithmic Functions (Section 021 ...
Lesson 14: Derivatives of Exponential and Logarithmic Functions (Section 021 ...Mel Anthony Pepito
 
Lesson 13: Exponential and Logarithmic Functions (Section 021 slides)
Lesson 13: Exponential and Logarithmic Functions (Section 021 slides)Lesson 13: Exponential and Logarithmic Functions (Section 021 slides)
Lesson 13: Exponential and Logarithmic Functions (Section 021 slides)Mel Anthony Pepito
 
Lesson 28: Integration by Subsitution
Lesson 28: Integration by SubsitutionLesson 28: Integration by Subsitution
Lesson 28: Integration by SubsitutionMel Anthony Pepito
 
Lesson 25: The Definite Integral
Lesson 25: The Definite IntegralLesson 25: The Definite Integral
Lesson 25: The Definite IntegralMel Anthony Pepito
 
Lesson22 -optimization_problems_slides
Lesson22 -optimization_problems_slidesLesson22 -optimization_problems_slides
Lesson22 -optimization_problems_slidesMel Anthony Pepito
 

Destacado (20)

Lesson 9: The Product and Quotient Rules (Section 21 slides)
Lesson 9: The Product and Quotient Rules (Section 21 slides)Lesson 9: The Product and Quotient Rules (Section 21 slides)
Lesson 9: The Product and Quotient Rules (Section 21 slides)
 
KP Compass & Game Theory
KP Compass & Game TheoryKP Compass & Game Theory
KP Compass & Game Theory
 
cvpr2011: game theory in CVPR part 1
cvpr2011: game theory in CVPR part 1cvpr2011: game theory in CVPR part 1
cvpr2011: game theory in CVPR part 1
 
Methods from Mathematical Data Mining (Supported by Optimization)
Methods from Mathematical Data Mining (Supported by Optimization)Methods from Mathematical Data Mining (Supported by Optimization)
Methods from Mathematical Data Mining (Supported by Optimization)
 
Lesson 1: Functions
Lesson 1: FunctionsLesson 1: Functions
Lesson 1: Functions
 
Lesson 10: The Chain Rule (Section 21 slides)
Lesson 10: The Chain Rule (Section 21 slides)Lesson 10: The Chain Rule (Section 21 slides)
Lesson 10: The Chain Rule (Section 21 slides)
 
Lesson 17: Indeterminate Forms and L'Hôpital's Rule
Lesson 17: Indeterminate Forms and L'Hôpital's RuleLesson 17: Indeterminate Forms and L'Hôpital's Rule
Lesson 17: Indeterminate Forms and L'Hôpital's Rule
 
Lesson 11: Implicit Differentiation
Lesson 11: Implicit DifferentiationLesson 11: Implicit Differentiation
Lesson 11: Implicit Differentiation
 
Lesson 27: Integration by Substitution (Section 041 slides)
Lesson 27: Integration by Substitution (Section 041 slides)Lesson 27: Integration by Substitution (Section 041 slides)
Lesson 27: Integration by Substitution (Section 041 slides)
 
Lesson 12: Linear Approximation
Lesson 12: Linear ApproximationLesson 12: Linear Approximation
Lesson 12: Linear Approximation
 
Lesson 7: The Derivative (Section 21 slide)
Lesson 7: The Derivative (Section 21 slide)Lesson 7: The Derivative (Section 21 slide)
Lesson 7: The Derivative (Section 21 slide)
 
Lesson 8: Basic Differentiation Rules (Section 21 slides)
Lesson 8: Basic Differentiation Rules (Section 21 slides) Lesson 8: Basic Differentiation Rules (Section 21 slides)
Lesson 8: Basic Differentiation Rules (Section 21 slides)
 
Lesson 6: Limits Involving ∞ (Section 21 slides)
Lesson 6: Limits Involving ∞ (Section 21 slides)Lesson 6: Limits Involving ∞ (Section 21 slides)
Lesson 6: Limits Involving ∞ (Section 21 slides)
 
Lesson 5: Continuity (Section 21 slides)
Lesson 5: Continuity (Section 21 slides)Lesson 5: Continuity (Section 21 slides)
Lesson 5: Continuity (Section 21 slides)
 
Lesson 14: Derivatives of Exponential and Logarithmic Functions (Section 021 ...
Lesson 14: Derivatives of Exponential and Logarithmic Functions (Section 021 ...Lesson 14: Derivatives of Exponential and Logarithmic Functions (Section 021 ...
Lesson 14: Derivatives of Exponential and Logarithmic Functions (Section 021 ...
 
Lesson 13: Exponential and Logarithmic Functions (Section 021 slides)
Lesson 13: Exponential and Logarithmic Functions (Section 021 slides)Lesson 13: Exponential and Logarithmic Functions (Section 021 slides)
Lesson 13: Exponential and Logarithmic Functions (Section 021 slides)
 
Lesson 28: Integration by Subsitution
Lesson 28: Integration by SubsitutionLesson 28: Integration by Subsitution
Lesson 28: Integration by Subsitution
 
Lesson 25: The Definite Integral
Lesson 25: The Definite IntegralLesson 25: The Definite Integral
Lesson 25: The Definite Integral
 
Lesson 21: Curve Sketching
Lesson 21: Curve SketchingLesson 21: Curve Sketching
Lesson 21: Curve Sketching
 
Lesson22 -optimization_problems_slides
Lesson22 -optimization_problems_slidesLesson22 -optimization_problems_slides
Lesson22 -optimization_problems_slides
 

Similar a Lesson 13: Related Rates Problems

Lesson 8: Basic Differentiation Rules (Section 41 handout)
Lesson 8: Basic Differentiation Rules (Section 41 handout)Lesson 8: Basic Differentiation Rules (Section 41 handout)
Lesson 8: Basic Differentiation Rules (Section 41 handout)Matthew Leingang
 
Lesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeLesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeMatthew Leingang
 
Lesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeLesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeMatthew Leingang
 
Lesson 8: Basic Differentiation Rules (Section 21 handout)
Lesson 8: Basic Differentiation Rules (Section 21 handout)Lesson 8: Basic Differentiation Rules (Section 21 handout)
Lesson 8: Basic Differentiation Rules (Section 21 handout)Matthew Leingang
 
Lesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeLesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeMatthew Leingang
 
Lesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeLesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeMatthew Leingang
 
Lesson 12: Linear Approximation and Differentials (Section 21 handout)
Lesson 12: Linear Approximation and Differentials (Section 21 handout)Lesson 12: Linear Approximation and Differentials (Section 21 handout)
Lesson 12: Linear Approximation and Differentials (Section 21 handout)Matthew Leingang
 
Lesson 15: Exponential Growth and Decay
Lesson 15: Exponential Growth and DecayLesson 15: Exponential Growth and Decay
Lesson 15: Exponential Growth and DecayMel Anthony Pepito
 
On estimating the integrated co volatility using
On estimating the integrated co volatility usingOn estimating the integrated co volatility using
On estimating the integrated co volatility usingkkislas
 
Lesson 12: Linear Approximation (Section 41 handout)
Lesson 12: Linear Approximation (Section 41 handout)Lesson 12: Linear Approximation (Section 41 handout)
Lesson 12: Linear Approximation (Section 41 handout)Matthew Leingang
 
lec_slides.pdf
lec_slides.pdflec_slides.pdf
lec_slides.pdfMalluKomar
 
Lesson 9: The Product and Quotient Rules (Section 41 handout)
Lesson 9: The Product and Quotient Rules (Section 41 handout)Lesson 9: The Product and Quotient Rules (Section 41 handout)
Lesson 9: The Product and Quotient Rules (Section 41 handout)Matthew Leingang
 
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...ijrap
 
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...ijrap
 
Lesson 25: The Definite Integral
Lesson 25: The Definite IntegralLesson 25: The Definite Integral
Lesson 25: The Definite IntegralMatthew Leingang
 
On optimization ofON OPTIMIZATION OF DOPING OF A HETEROSTRUCTURE DURING MANUF...
On optimization ofON OPTIMIZATION OF DOPING OF A HETEROSTRUCTURE DURING MANUF...On optimization ofON OPTIMIZATION OF DOPING OF A HETEROSTRUCTURE DURING MANUF...
On optimization ofON OPTIMIZATION OF DOPING OF A HETEROSTRUCTURE DURING MANUF...ijcsitcejournal
 
The two dimensional wave equation
The two dimensional wave equationThe two dimensional wave equation
The two dimensional wave equationGermán Ceballos
 
Lesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsLesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsMatthew Leingang
 

Similar a Lesson 13: Related Rates Problems (20)

Lesson 6: The Derivative
Lesson 6: The DerivativeLesson 6: The Derivative
Lesson 6: The Derivative
 
Lesson 8: Basic Differentiation Rules (Section 41 handout)
Lesson 8: Basic Differentiation Rules (Section 41 handout)Lesson 8: Basic Differentiation Rules (Section 41 handout)
Lesson 8: Basic Differentiation Rules (Section 41 handout)
 
Lesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeLesson 13: Related Rates of Change
Lesson 13: Related Rates of Change
 
Lesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeLesson 13: Related Rates of Change
Lesson 13: Related Rates of Change
 
Lesson 8: Basic Differentiation Rules (Section 21 handout)
Lesson 8: Basic Differentiation Rules (Section 21 handout)Lesson 8: Basic Differentiation Rules (Section 21 handout)
Lesson 8: Basic Differentiation Rules (Section 21 handout)
 
Lesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeLesson 13: Related Rates of Change
Lesson 13: Related Rates of Change
 
Lesson 13: Related Rates of Change
Lesson 13: Related Rates of ChangeLesson 13: Related Rates of Change
Lesson 13: Related Rates of Change
 
Lesson 12: Linear Approximation and Differentials (Section 21 handout)
Lesson 12: Linear Approximation and Differentials (Section 21 handout)Lesson 12: Linear Approximation and Differentials (Section 21 handout)
Lesson 12: Linear Approximation and Differentials (Section 21 handout)
 
Lesson 15: Exponential Growth and Decay
Lesson 15: Exponential Growth and DecayLesson 15: Exponential Growth and Decay
Lesson 15: Exponential Growth and Decay
 
On estimating the integrated co volatility using
On estimating the integrated co volatility usingOn estimating the integrated co volatility using
On estimating the integrated co volatility using
 
Lesson 12: Linear Approximation (Section 41 handout)
Lesson 12: Linear Approximation (Section 41 handout)Lesson 12: Linear Approximation (Section 41 handout)
Lesson 12: Linear Approximation (Section 41 handout)
 
lec_slides.pdf
lec_slides.pdflec_slides.pdf
lec_slides.pdf
 
Lesson 9: The Product and Quotient Rules (Section 41 handout)
Lesson 9: The Product and Quotient Rules (Section 41 handout)Lesson 9: The Product and Quotient Rules (Section 41 handout)
Lesson 9: The Product and Quotient Rules (Section 41 handout)
 
Lecture notes 02
Lecture notes 02Lecture notes 02
Lecture notes 02
 
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
 
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
OPTIMIZATION OF DOPANT DIFFUSION AND ION IMPLANTATION TO INCREASE INTEGRATION...
 
Lesson 25: The Definite Integral
Lesson 25: The Definite IntegralLesson 25: The Definite Integral
Lesson 25: The Definite Integral
 
On optimization ofON OPTIMIZATION OF DOPING OF A HETEROSTRUCTURE DURING MANUF...
On optimization ofON OPTIMIZATION OF DOPING OF A HETEROSTRUCTURE DURING MANUF...On optimization ofON OPTIMIZATION OF DOPING OF A HETEROSTRUCTURE DURING MANUF...
On optimization ofON OPTIMIZATION OF DOPING OF A HETEROSTRUCTURE DURING MANUF...
 
The two dimensional wave equation
The two dimensional wave equationThe two dimensional wave equation
The two dimensional wave equation
 
Lesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsLesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential Functions
 

Más de Mel Anthony Pepito

Lesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric FunctionsLesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric FunctionsMel Anthony Pepito
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential FunctionsLesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential FunctionsMel Anthony Pepito
 
Lesson18 -maximum_and_minimum_values_slides
Lesson18 -maximum_and_minimum_values_slidesLesson18 -maximum_and_minimum_values_slides
Lesson18 -maximum_and_minimum_values_slidesMel Anthony Pepito
 
Lesson 19: The Mean Value Theorem
Lesson 19: The Mean Value TheoremLesson 19: The Mean Value Theorem
Lesson 19: The Mean Value TheoremMel Anthony Pepito
 
Lesson 26: Evaluating Definite Integrals
Lesson 26: Evaluating Definite IntegralsLesson 26: Evaluating Definite Integrals
Lesson 26: Evaluating Definite IntegralsMel Anthony Pepito
 
Lesson 27: The Fundamental Theorem of Calculus
Lesson 27: The Fundamental Theorem of Calculus Lesson 27: The Fundamental Theorem of Calculus
Lesson 27: The Fundamental Theorem of Calculus Mel Anthony Pepito
 
Lesson 3: Limits (Section 21 slides)
Lesson 3: Limits (Section 21 slides)Lesson 3: Limits (Section 21 slides)
Lesson 3: Limits (Section 21 slides)Mel Anthony Pepito
 
Lesson 5: Continuity (Section 41 slides)
Lesson 5: Continuity (Section 41 slides)Lesson 5: Continuity (Section 41 slides)
Lesson 5: Continuity (Section 41 slides)Mel Anthony Pepito
 
Lesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsLesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsMel Anthony Pepito
 
Lesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsLesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsMel Anthony Pepito
 
Lesson 4: Calculating Limits (Section 41 slides)
Lesson 4: Calculating Limits (Section 41 slides)Lesson 4: Calculating Limits (Section 41 slides)
Lesson 4: Calculating Limits (Section 41 slides)Mel Anthony Pepito
 
Lesson 4: Calculating Limits (Section 21 slides)
Lesson 4: Calculating Limits (Section 21 slides)Lesson 4: Calculating Limits (Section 21 slides)
Lesson 4: Calculating Limits (Section 21 slides)Mel Anthony Pepito
 
Lesson 6: Limits Involving ∞ (Section 41 slides)
Lesson 6: Limits Involving ∞ (Section 41 slides)Lesson 6: Limits Involving ∞ (Section 41 slides)
Lesson 6: Limits Involving ∞ (Section 41 slides)Mel Anthony Pepito
 
Lesson 7: The Derivative (Section 41 slides)
Lesson 7: The Derivative (Section 41 slides)Lesson 7: The Derivative (Section 41 slides)
Lesson 7: The Derivative (Section 41 slides)Mel Anthony Pepito
 

Más de Mel Anthony Pepito (19)

Lesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric FunctionsLesson 16: Inverse Trigonometric Functions
Lesson 16: Inverse Trigonometric Functions
 
Lesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential FunctionsLesson 14: Derivatives of Logarithmic and Exponential Functions
Lesson 14: Derivatives of Logarithmic and Exponential Functions
 
Lesson18 -maximum_and_minimum_values_slides
Lesson18 -maximum_and_minimum_values_slidesLesson18 -maximum_and_minimum_values_slides
Lesson18 -maximum_and_minimum_values_slides
 
Lesson 19: The Mean Value Theorem
Lesson 19: The Mean Value TheoremLesson 19: The Mean Value Theorem
Lesson 19: The Mean Value Theorem
 
Lesson 24: Area and Distances
Lesson 24: Area and DistancesLesson 24: Area and Distances
Lesson 24: Area and Distances
 
Lesson 23: Antiderivatives
Lesson 23: AntiderivativesLesson 23: Antiderivatives
Lesson 23: Antiderivatives
 
Lesson 26: Evaluating Definite Integrals
Lesson 26: Evaluating Definite IntegralsLesson 26: Evaluating Definite Integrals
Lesson 26: Evaluating Definite Integrals
 
Lesson 27: The Fundamental Theorem of Calculus
Lesson 27: The Fundamental Theorem of Calculus Lesson 27: The Fundamental Theorem of Calculus
Lesson 27: The Fundamental Theorem of Calculus
 
Introduction
IntroductionIntroduction
Introduction
 
Introduction
IntroductionIntroduction
Introduction
 
Lesson 3: Limits (Section 21 slides)
Lesson 3: Limits (Section 21 slides)Lesson 3: Limits (Section 21 slides)
Lesson 3: Limits (Section 21 slides)
 
Lesson 3: Limits
Lesson 3: LimitsLesson 3: Limits
Lesson 3: Limits
 
Lesson 5: Continuity (Section 41 slides)
Lesson 5: Continuity (Section 41 slides)Lesson 5: Continuity (Section 41 slides)
Lesson 5: Continuity (Section 41 slides)
 
Lesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsLesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential Functions
 
Lesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential FunctionsLesson 2: A Catalog of Essential Functions
Lesson 2: A Catalog of Essential Functions
 
Lesson 4: Calculating Limits (Section 41 slides)
Lesson 4: Calculating Limits (Section 41 slides)Lesson 4: Calculating Limits (Section 41 slides)
Lesson 4: Calculating Limits (Section 41 slides)
 
Lesson 4: Calculating Limits (Section 21 slides)
Lesson 4: Calculating Limits (Section 21 slides)Lesson 4: Calculating Limits (Section 21 slides)
Lesson 4: Calculating Limits (Section 21 slides)
 
Lesson 6: Limits Involving ∞ (Section 41 slides)
Lesson 6: Limits Involving ∞ (Section 41 slides)Lesson 6: Limits Involving ∞ (Section 41 slides)
Lesson 6: Limits Involving ∞ (Section 41 slides)
 
Lesson 7: The Derivative (Section 41 slides)
Lesson 7: The Derivative (Section 41 slides)Lesson 7: The Derivative (Section 41 slides)
Lesson 7: The Derivative (Section 41 slides)
 

Último

Developer Data Modeling Mistakes: From Postgres to NoSQL
Developer Data Modeling Mistakes: From Postgres to NoSQLDeveloper Data Modeling Mistakes: From Postgres to NoSQL
Developer Data Modeling Mistakes: From Postgres to NoSQLScyllaDB
 
The Fit for Passkeys for Employee and Consumer Sign-ins: FIDO Paris Seminar.pptx
The Fit for Passkeys for Employee and Consumer Sign-ins: FIDO Paris Seminar.pptxThe Fit for Passkeys for Employee and Consumer Sign-ins: FIDO Paris Seminar.pptx
The Fit for Passkeys for Employee and Consumer Sign-ins: FIDO Paris Seminar.pptxLoriGlavin3
 
A Journey Into the Emotions of Software Developers
A Journey Into the Emotions of Software DevelopersA Journey Into the Emotions of Software Developers
A Journey Into the Emotions of Software DevelopersNicole Novielli
 
How to write a Business Continuity Plan
How to write a Business Continuity PlanHow to write a Business Continuity Plan
How to write a Business Continuity PlanDatabarracks
 
unit 4 immunoblotting technique complete.pptx
unit 4 immunoblotting technique complete.pptxunit 4 immunoblotting technique complete.pptx
unit 4 immunoblotting technique complete.pptxBkGupta21
 
Merck Moving Beyond Passwords: FIDO Paris Seminar.pptx
Merck Moving Beyond Passwords: FIDO Paris Seminar.pptxMerck Moving Beyond Passwords: FIDO Paris Seminar.pptx
Merck Moving Beyond Passwords: FIDO Paris Seminar.pptxLoriGlavin3
 
Rise of the Machines: Known As Drones...
Rise of the Machines: Known As Drones...Rise of the Machines: Known As Drones...
Rise of the Machines: Known As Drones...Rick Flair
 
Passkey Providers and Enabling Portability: FIDO Paris Seminar.pptx
Passkey Providers and Enabling Portability: FIDO Paris Seminar.pptxPasskey Providers and Enabling Portability: FIDO Paris Seminar.pptx
Passkey Providers and Enabling Portability: FIDO Paris Seminar.pptxLoriGlavin3
 
Transcript: New from BookNet Canada for 2024: Loan Stars - Tech Forum 2024
Transcript: New from BookNet Canada for 2024: Loan Stars - Tech Forum 2024Transcript: New from BookNet Canada for 2024: Loan Stars - Tech Forum 2024
Transcript: New from BookNet Canada for 2024: Loan Stars - Tech Forum 2024BookNet Canada
 
Sample pptx for embedding into website for demo
Sample pptx for embedding into website for demoSample pptx for embedding into website for demo
Sample pptx for embedding into website for demoHarshalMandlekar2
 
What is Artificial Intelligence?????????
What is Artificial Intelligence?????????What is Artificial Intelligence?????????
What is Artificial Intelligence?????????blackmambaettijean
 
Training state-of-the-art general text embedding
Training state-of-the-art general text embeddingTraining state-of-the-art general text embedding
Training state-of-the-art general text embeddingZilliz
 
Advanced Computer Architecture – An Introduction
Advanced Computer Architecture – An IntroductionAdvanced Computer Architecture – An Introduction
Advanced Computer Architecture – An IntroductionDilum Bandara
 
The Role of FIDO in a Cyber Secure Netherlands: FIDO Paris Seminar.pptx
The Role of FIDO in a Cyber Secure Netherlands: FIDO Paris Seminar.pptxThe Role of FIDO in a Cyber Secure Netherlands: FIDO Paris Seminar.pptx
The Role of FIDO in a Cyber Secure Netherlands: FIDO Paris Seminar.pptxLoriGlavin3
 
Nell’iperspazio con Rocket: il Framework Web di Rust!
Nell’iperspazio con Rocket: il Framework Web di Rust!Nell’iperspazio con Rocket: il Framework Web di Rust!
Nell’iperspazio con Rocket: il Framework Web di Rust!Commit University
 
Generative AI for Technical Writer or Information Developers
Generative AI for Technical Writer or Information DevelopersGenerative AI for Technical Writer or Information Developers
Generative AI for Technical Writer or Information DevelopersRaghuram Pandurangan
 
Ensuring Technical Readiness For Copilot in Microsoft 365
Ensuring Technical Readiness For Copilot in Microsoft 365Ensuring Technical Readiness For Copilot in Microsoft 365
Ensuring Technical Readiness For Copilot in Microsoft 3652toLead Limited
 
DevoxxFR 2024 Reproducible Builds with Apache Maven
DevoxxFR 2024 Reproducible Builds with Apache MavenDevoxxFR 2024 Reproducible Builds with Apache Maven
DevoxxFR 2024 Reproducible Builds with Apache MavenHervé Boutemy
 
Dev Dives: Streamline document processing with UiPath Studio Web
Dev Dives: Streamline document processing with UiPath Studio WebDev Dives: Streamline document processing with UiPath Studio Web
Dev Dives: Streamline document processing with UiPath Studio WebUiPathCommunity
 
Use of FIDO in the Payments and Identity Landscape: FIDO Paris Seminar.pptx
Use of FIDO in the Payments and Identity Landscape: FIDO Paris Seminar.pptxUse of FIDO in the Payments and Identity Landscape: FIDO Paris Seminar.pptx
Use of FIDO in the Payments and Identity Landscape: FIDO Paris Seminar.pptxLoriGlavin3
 

Último (20)

Developer Data Modeling Mistakes: From Postgres to NoSQL
Developer Data Modeling Mistakes: From Postgres to NoSQLDeveloper Data Modeling Mistakes: From Postgres to NoSQL
Developer Data Modeling Mistakes: From Postgres to NoSQL
 
The Fit for Passkeys for Employee and Consumer Sign-ins: FIDO Paris Seminar.pptx
The Fit for Passkeys for Employee and Consumer Sign-ins: FIDO Paris Seminar.pptxThe Fit for Passkeys for Employee and Consumer Sign-ins: FIDO Paris Seminar.pptx
The Fit for Passkeys for Employee and Consumer Sign-ins: FIDO Paris Seminar.pptx
 
A Journey Into the Emotions of Software Developers
A Journey Into the Emotions of Software DevelopersA Journey Into the Emotions of Software Developers
A Journey Into the Emotions of Software Developers
 
How to write a Business Continuity Plan
How to write a Business Continuity PlanHow to write a Business Continuity Plan
How to write a Business Continuity Plan
 
unit 4 immunoblotting technique complete.pptx
unit 4 immunoblotting technique complete.pptxunit 4 immunoblotting technique complete.pptx
unit 4 immunoblotting technique complete.pptx
 
Merck Moving Beyond Passwords: FIDO Paris Seminar.pptx
Merck Moving Beyond Passwords: FIDO Paris Seminar.pptxMerck Moving Beyond Passwords: FIDO Paris Seminar.pptx
Merck Moving Beyond Passwords: FIDO Paris Seminar.pptx
 
Rise of the Machines: Known As Drones...
Rise of the Machines: Known As Drones...Rise of the Machines: Known As Drones...
Rise of the Machines: Known As Drones...
 
Passkey Providers and Enabling Portability: FIDO Paris Seminar.pptx
Passkey Providers and Enabling Portability: FIDO Paris Seminar.pptxPasskey Providers and Enabling Portability: FIDO Paris Seminar.pptx
Passkey Providers and Enabling Portability: FIDO Paris Seminar.pptx
 
Transcript: New from BookNet Canada for 2024: Loan Stars - Tech Forum 2024
Transcript: New from BookNet Canada for 2024: Loan Stars - Tech Forum 2024Transcript: New from BookNet Canada for 2024: Loan Stars - Tech Forum 2024
Transcript: New from BookNet Canada for 2024: Loan Stars - Tech Forum 2024
 
Sample pptx for embedding into website for demo
Sample pptx for embedding into website for demoSample pptx for embedding into website for demo
Sample pptx for embedding into website for demo
 
What is Artificial Intelligence?????????
What is Artificial Intelligence?????????What is Artificial Intelligence?????????
What is Artificial Intelligence?????????
 
Training state-of-the-art general text embedding
Training state-of-the-art general text embeddingTraining state-of-the-art general text embedding
Training state-of-the-art general text embedding
 
Advanced Computer Architecture – An Introduction
Advanced Computer Architecture – An IntroductionAdvanced Computer Architecture – An Introduction
Advanced Computer Architecture – An Introduction
 
The Role of FIDO in a Cyber Secure Netherlands: FIDO Paris Seminar.pptx
The Role of FIDO in a Cyber Secure Netherlands: FIDO Paris Seminar.pptxThe Role of FIDO in a Cyber Secure Netherlands: FIDO Paris Seminar.pptx
The Role of FIDO in a Cyber Secure Netherlands: FIDO Paris Seminar.pptx
 
Nell’iperspazio con Rocket: il Framework Web di Rust!
Nell’iperspazio con Rocket: il Framework Web di Rust!Nell’iperspazio con Rocket: il Framework Web di Rust!
Nell’iperspazio con Rocket: il Framework Web di Rust!
 
Generative AI for Technical Writer or Information Developers
Generative AI for Technical Writer or Information DevelopersGenerative AI for Technical Writer or Information Developers
Generative AI for Technical Writer or Information Developers
 
Ensuring Technical Readiness For Copilot in Microsoft 365
Ensuring Technical Readiness For Copilot in Microsoft 365Ensuring Technical Readiness For Copilot in Microsoft 365
Ensuring Technical Readiness For Copilot in Microsoft 365
 
DevoxxFR 2024 Reproducible Builds with Apache Maven
DevoxxFR 2024 Reproducible Builds with Apache MavenDevoxxFR 2024 Reproducible Builds with Apache Maven
DevoxxFR 2024 Reproducible Builds with Apache Maven
 
Dev Dives: Streamline document processing with UiPath Studio Web
Dev Dives: Streamline document processing with UiPath Studio WebDev Dives: Streamline document processing with UiPath Studio Web
Dev Dives: Streamline document processing with UiPath Studio Web
 
Use of FIDO in the Payments and Identity Landscape: FIDO Paris Seminar.pptx
Use of FIDO in the Payments and Identity Landscape: FIDO Paris Seminar.pptxUse of FIDO in the Payments and Identity Landscape: FIDO Paris Seminar.pptx
Use of FIDO in the Payments and Identity Landscape: FIDO Paris Seminar.pptx
 

Lesson 13: Related Rates Problems

  • 1. Section 2.7 Related Rates V63.0121.002.2010Su, Calculus I New York University May 27, 2010 Announcements No class Monday, May 31 Assignment 2 due Tuesday, June 1 . . . . . .
  • 2. Announcements No class Monday, May 31 Assignment 2 due Tuesday, June 1 . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 2 / 18
  • 3. Objectives Use derivatives to understand rates of change. Model word problems . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 3 / 18
  • 4. What are related rates problems? Today we’ll look at a direct application of the chain rule to real-world problems. Examples of these can be found whenever you have some system or object changing, and you want to measure the rate of change of something related to it. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 4 / 18
  • 5. Problem Example An oil slick in the shape of a disk is growing. At a certain time, the radius is 1 km and the volume is growing at the rate of 10,000 liters per second. If the slick is always 20 cm deep, how fast is the radius of the disk growing at the same time? . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 5 / 18
  • 6. A solution Solution The volume of the disk is V = πr2 h. . r . dV We are given , a certain h . dt value of r, and the object is to dr find at that instant. dt . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 6 / 18
  • 7. Solution Differentiating V = πr2 h with respect to time we have 0 dV dr dh¡ ! = 2πrh + πr2 ¡ dt dt ¡dt . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 7 / 18
  • 8. Solution Differentiating V = πr2 h with respect to time we have 0 dV dr dh¡ ! dr 1 dV = 2πrh + πr2 ¡ =⇒ = · . dt dt ¡dt dt 2πrh dt . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 7 / 18
  • 9. Solution Differentiating V = πr2 h with respect to time we have 0 dV dr dh¡ ! dr 1 dV = 2πrh + πr2 ¡ =⇒ = · . dt dt ¡dt dt 2πrh dt Now we evaluate: dr 1 10, 000 L = · dt r=1 km 2π(1 km)(20 cm) s . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 7 / 18
  • 10. Solution Differentiating V = πr2 h with respect to time we have 0 dV dr dh¡ ! dr 1 dV = 2πrh + πr2 ¡ =⇒ = · . dt dt ¡dt dt 2πrh dt Now we evaluate: dr 1 10, 000 L = · dt r=1 km 2π(1 km)(20 cm) s Converting every length to meters we have dr 1 10 m3 1 m = · = dt r=1 km 2π(1000 m)(0.2 m) s 40π s . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 7 / 18
  • 11. Outline Strategy Examples . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 8 / 18
  • 12. Strategies for Problem Solving 1. Understand the problem 2. Devise a plan 3. Carry out the plan 4. Review and extend György Pólya (Hungarian, 1887–1985) . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 9 / 18
  • 13. Strategies for Related Rates Problems . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
  • 14. Strategies for Related Rates Problems 1. Read the problem. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
  • 15. Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
  • 16. Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
  • 17. Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) 4. Express the given information and the required rate in terms of derivatives . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
  • 18. Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) 4. Express the given information and the required rate in terms of derivatives 5. Write an equation that relates the various quantities of the problem. If necessary, use the geometry of the situation to eliminate all but one of the variables. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
  • 19. Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) 4. Express the given information and the required rate in terms of derivatives 5. Write an equation that relates the various quantities of the problem. If necessary, use the geometry of the situation to eliminate all but one of the variables. 6. Use the Chain Rule to differentiate both sides with respect to t. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
  • 20. Strategies for Related Rates Problems 1. Read the problem. 2. Draw a diagram. 3. Introduce notation. Give symbols to all quantities that are functions of time (and maybe some constants) 4. Express the given information and the required rate in terms of derivatives 5. Write an equation that relates the various quantities of the problem. If necessary, use the geometry of the situation to eliminate all but one of the variables. 6. Use the Chain Rule to differentiate both sides with respect to t. 7. Substitute the given information into the resulting equation and solve for the unknown rate. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 10 / 18
  • 21. Outline Strategy Examples . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 11 / 18
  • 22. Another one Example A man starts walking north at 4ft/sec from a point P. Five minutes later a woman starts walking south at 4ft/sec from a point 500 ft due east of P. At what rate are the people walking apart 15 min after the woman starts walking? . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 12 / 18
  • 23. Diagram 4 . ft/sec . m . . P . . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
  • 24. Diagram 4 . ft/sec . m . . 5 . 00 P . w . 4 . ft/sec . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
  • 25. Diagram 4 . ft/sec . . s m . . 5 . 00 P . w . 4 . ft/sec . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
  • 26. Diagram 4 . ft/sec . . s m . . 5 . 00 P . w . w . 5 . 00 4 . ft/sec . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
  • 27. Diagram 4 . ft/sec √ . . s m . s . = (m + w)2 + 5002 . 5 . 00 P . w . w . 5 . 00 4 . ft/sec . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 13 / 18
  • 28. Expressing what is known and unknown 15 minutes after the woman starts walking, the woman has traveled ( )( ) 4ft 60sec (15min) = 3600ft sec min while the man has traveled ( )( ) 4ft 60sec (20min) = 4800ft sec min ds dm dw We want to know when m = 4800, w = 3600, = 4, and = 4. dt dt dt . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 14 / 18
  • 29. Differentiation We have ( ) ds 1( 2 2 )−1/2 dm dw = (m + w) + 500 (2)(m + w) + dt 2 dt dt ( ) m + w dm dw = + s dt dt At our particular point in time ds 4800 + 3600 672 =√ (4 + 4) = √ ≈ 7.98587ft/s dt 2 + 5002 7081 (4800 + 3600) . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 15 / 18
  • 30. An example from electricity Example If two resistors with resistances R1 and R2 are connected in parallel, as in the figure, then . . the total resistance R, measured in Ohms (Ω), is given R . 1 R . 2 by . . 1 1 1 = + R R1 R2 (a) Suppose R1 = 80 Ω and R2 = 100 Ω. What is R? (b) If at some point R′ = 0.3 Ω/s and R′ = 0.2 Ω/s, what is R′ at the 1 2 same time? . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 16 / 18
  • 31. Solution Solution R1 R2 80 · 100 4 (a) R = = = 44 Ω. R1 + R2 80 + 100 9 (b) Differentiating the relation between R1 , R2 , and R we get 1 1 1 − 2 R′ = − R′ − 1 R′ 2 R R2 1 R2 2 So when R′ = 0.3 Ω/s and R′ = 0.2 Ω/s, 1 2 ( ) ( ) ′ 2 R′ 1 R′2 R2 R2 1 2 R′ 1 R′2 R =R + = + R2 R2 1 2 (R1 + R2 )2 R2 R2 1 2 ( )2 ( ) 400 3/10 2/10 107 = 2 + 2 = ≈ 0.132098 Ω/s 9 80 100 810 . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 17 / 18
  • 32. Summary Related Rates problems are an application of the chain rule to modeling Similar triangles, the Pythagorean Theorem, trigonometric functions are often clues to finding the right relation. Problem solving techniques: understand, strategize, solve, review. . . . . . . V63.0121.002.2010Su, Calculus I (NYU) Section 2.7 Related Rates May 27, 2010 18 / 18