Presentation is loading. Please wait.

Presentation is loading. Please wait.

Olympic National Park, Washington Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2007 4.6: Related Rates.

Published byAngel Ferguson Modified over 9 years ago

Similar presentations

Presentation on theme: "Olympic National Park, Washington Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2007 4.6: Related Rates."— Presentation transcript:

1 Olympic National Park, Washington Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2007 4.6: Related Rates

2 Olympic National Park, Washington Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2007 4.6: Related Rates

3 Olympic National Park, Washington Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2007 4.6: Related Rates

4 First, a review problem: Consider a sphere of radius 10cm. If the radius changes 0.1cm (a very small amount) how much does the volume change? The volume would change by approximately.

5 Now, suppose that the radius is changing at an instantaneous rate of 0.1 cm/sec. (Possible if the sphere is a soap bubble or a balloon.) The sphere is growing at a rate of. Note: This is an exact answer, not an approximation like we got with the differential problems.

6 Water is draining from a cylindrical tank at 3 liters/second. How fast is the surface dropping? Find ( r is a constant.) (We need a formula to relate V and h. )

7 Steps for Related Rates Problems: 1. Draw a picture (sketch). 2. Write down known information. 3. Write down what you are looking for. 4. Write an equation to relate the variables. 5. Differentiate both sides with respect to t. 6. Evaluate.

8 Hot Air Balloon Problem: Given: How fast is the balloon rising? Find

9 Hot Air Balloon Problem: Given: How fast is the balloon rising? Find

10 B A Truck Problem: Truck A travels east at 40 mi/hr. Truck B travels north at 30 mi/hr. How fast is the distance between the trucks changing 6 minutes later?

11 B A Truck Problem: How fast is the distance between the trucks changing 6 minutes later? Truck A travels east at 40 mi/hr. Truck B travels north at 30 mi/hr. 

Download ppt "Olympic National Park, Washington Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2007 4.6: Related Rates."

Similar presentations

2.6 Related Rates.

2.6 Related Rates.
3.7 Modeling and Optimization

3.7 Modeling and Optimization
6.4 day 1 Separable Differential Equations

6.4 day 1 Separable Differential Equations
4.6: Related Rates. First, a review problem: Consider a sphere of radius 10cm. If the radius changes 0.1cm (a very small amount) how much does the volume.

4.6: Related Rates. First, a review problem: Consider a sphere of radius 10cm. If the radius changes 0.1cm (a very small amount) how much does the volume.
Teresita S. Arlante Naga City Science High School.

Teresita S. Arlante Naga City Science High School.
2.7 Related Rates.

2.7 Related Rates.
When we first started to talk about derivatives, we said that becomes when the change in x and change in y become very small. dy can be considered a very.

When we first started to talk about derivatives, we said that becomes when the change in x and change in y become very small. dy can be considered a very.
2.6 Related Rates. Related Rate Problems General Steps for solving a Related Rate problem Set up: Draw picture/ Label now – what values do we know.

2.6 Related Rates. Related Rate Problems General Steps for solving a Related Rate problem Set up: Draw picture/ Label now – what values do we know.
2.8 Related Rates.

2.8 Related Rates.
Linearization , Related Rates, and Optimization

Linearization , Related Rates, and Optimization
Review Problem: Use implicit differentiation to find If.

Review Problem: Use implicit differentiation to find If.
Section 4.1: Related Rates Practice HW from Stewart Textbook (not to hand in) p. 267 # 1-19 odd, 23, 25, 29.

Section 4.1: Related Rates Practice HW from Stewart Textbook (not to hand in) p. 267 # 1-19 odd, 23, 25, 29.
Related Rates Section 4.6a.

Related Rates Section 4.6a.
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.
Calculus warm-up Find. xf(x)g(x)f’(x)g’(x) 318-3-5 63-245 834 12-650 For each expression below, use the table above to find the value of the derivative.

Calculus warm-up Find. xf(x)g(x)f’(x)g’(x) For each expression below, use the table above to find the value of the derivative.
Warmup 1) 2). 4.6: Related Rates They are related (Xmas 2013)

Warmup 1) 2). 4.6: Related Rates They are related (Xmas 2013)
Related Rates 3.7. Finding a rate of change that cannot be easily measured by using another rate that can be is called a Related Rate problem. Steps for.

Related Rates 3.7. Finding a rate of change that cannot be easily measured by using another rate that can be is called a Related Rate problem. Steps for.
Related Rates 5.6. First, a review problem: Consider a sphere of radius 10cm. If the radius changes 0.1cm (a very small amount) how much does the volume.

Related Rates 5.6. First, a review problem: Consider a sphere of radius 10cm. If the radius changes 0.1cm (a very small amount) how much does the volume.
Related Rates Greg Kelly, Hanford High School, Richland, Washington.

Related Rates Greg Kelly, Hanford High School, Richland, Washington.
2 Copyright © Cengage Learning. All rights reserved. Differentiation.

2 Copyright © Cengage Learning. All rights reserved. Differentiation.

Similar presentations

Ads by Google