Textbook Question
Equal integrals Without evaluating integrals, explain the following equalities. (Hint: Draw pictures.)
b. ∫²₀(25−(x²+1)²) dx = 2∫₁⁵ y√y−1 dy
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Ch. 6 - Applications of Integration
Briggs3rd EditionCalculus: Early TranscendentalsISBN: 9780136847243
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Table of contents
- Ch. 1 - Functions210
- Ch. 2 - Limits371
- Ch. 3 - Derivatives633
- Ch. 4 - Applications of the Derivative412
- Ch. 5 - Integration328
- Ch. 6 - Applications of Integration331
- Ch. 7 - Logarithmic, Exponential Functions, and Hyperbolic Functions177
- Ch. 8 - Integration Techniques394
- Ch. 9 - Differential Equations179
- Ch. 10 - Sequences and Infinite Series339
- Ch. 11 - Power Series218
- Ch.12 - Parametric and Polar Curves215
Briggs3rd EditionCalculus: Early TranscendentalsISBN: 9780136847243Not the one you use?Change textbook
Chapter 6, Problem 6.7.36b
Emptying a cylindrical tank A cylindrical water tank has height 8 m and radius 2m (see figure).
b. Is it true that it takes half as much work to pump the water out of the tank when it is half full as when it is full? Explain.
Verified step by step guidance1
Understand that the work required to pump water out of the tank depends on both the volume of water and the distance each layer of water must be lifted.
Set up the integral for work when the tank is full: consider a thin horizontal slice of water at height \(y\) with thickness \(dy\). The volume of this slice is the area of the base times \(dy\), which is \(\pi \times 2^2 \times dy = 4\pi dy\).
Calculate the weight of this slice by multiplying its volume by the density of water and gravity (these constants can be factored out). The distance the slice must be lifted is \(8 - y\) meters (from height \(y\) to the top of the tank). So, the work done on this slice is proportional to \(4\pi (8 - y) dy\).
Integrate this expression from \(y=0\) to \(y=8\) to find the total work when the tank is full: \(W_{full} = \int_0^8 4\pi (8 - y) dy\).
For the tank half full, repeat the process but integrate from \(y=0\) to \(y=4\): \(W_{half} = \int_0^4 4\pi (8 - y) dy\). Compare \(W_{half}\) to \(\frac{1}{2} W_{full}\) to determine if it takes half as much work to pump the water out when the tank is half full.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Work Done by a Variable Force
Work in calculus is calculated as the integral of force over distance. When pumping water from a tank, the force varies with the weight of the water at different heights, requiring integration to sum the work done on each layer of water.
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Work Done On A Spring (Hooke's Law)
Volume and Weight of Water in a Cylinder
The volume of water in a cylindrical tank depends on the height of the water. Since weight is proportional to volume, the amount of work depends on how much water is present, which changes as the tank empties.
Recommended video:
04:48Finding Volume Using Disks
Distance Water is Pumped
The work depends not only on the amount of water but also on the distance each layer of water must be lifted. Water at the bottom must be pumped higher than water near the top, so the work is not simply proportional to the volume.
Recommended video:
07:39Pumping Liquids
Related Practice
Textbook Question
Different axes of revolution Suppose R is the region bounded by y=f(x) and y=g(x) on the interval [a, b], where f(x)≥g(x).
b. How is this formula changed if x0>b?
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Textbook Question
Explain why or why not Determine whether the following statements are true and give an explanation or counterexample.
b. If a region is revolved about the y-axis, then the shell method must be used.
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Textbook Question
Displacement and distance from velocity Consider the graph shown in the figure, which gives the velocity of an object moving along a line. Assume time is measured in hours and distance is measured in miles. The areas of three regions bounded by the velocity curve and the t-axis are also given.
b. What is the displacement of the object over the interval [0,3]?
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Textbook Question
Functions from arc length What differentiable functions have an arc length on the interval [a, b] given by the following integrals? Note that the answers are not unique. Give a family of functions that satisfy the conditions.
b. ∫a^b √1+36 cos² 2xdx
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Textbook Question
Determine whether the following statements are true and give an explanation or counterexample.
b. If f is not one-to-one on the interval [a, b], then the area of the surface generated when the graph of f on [a, b] is revolved about the x-axis is not defined.
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