True or False? Justify your answer with a proof or a counterexample. 435. The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder.

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Answer 1

Textbook Question

Chapter 2, Problem 435RE

True or False? Justify your answer with a proof or a counterexample.

435. The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder.

Expert Solution & Answer

To determine

To check: whether the statement, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder” is true or false.

Answer to Problem 435RE

The given statement is false.

Explanation of Solution

Given information:

The given statement is, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder”.

Calculation:

Consider a cylinder of radius r and height h .

Let x be the vertical distance below the top of the tank and the density of water is ρ .

So, the work done to empty the completely filled cylinder is given by,

W1=∫0hρ( π r 2 )xdx=ρ(πr2)∫0hxdx=ρ(πr2)[x22]0h [Using ∫xndx=xn+1n+1]=12πρr2h2

If the cylinder is half filled, then the work done to empty the half-filled cylinder is given by

W2=∫ h 2hρ( π r 2 )xdx=ρ(πr2)∫h2hxdx=ρ(πr2)[x22]h2h [Using ∫xndx=xn+1n+1]=12πρr2[h2−h24]=38πρr2h2

Thus,

W1W2=12πρr2h238πρr2h2=43⇒W2=34W1

Therefore, the amount of work to pump the water out of a half-full cylinder is three-fourth the amount of work to pump the water out of the full cylinder.

Conclusion:

Hence, the given statement is false.

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Answer 2

Textbook Question

Chapter 2, Problem 435RE

True or False? Justify your answer with a proof or a counterexample.

435. The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder.

Expert Solution & Answer

To determine

To check: whether the statement, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder” is true or false.

Answer to Problem 435RE

The given statement is false.

Explanation of Solution

Given information:

The given statement is, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder”.

Calculation:

Consider a cylinder of radius r and height h .

Let x be the vertical distance below the top of the tank and the density of water is ρ .

So, the work done to empty the completely filled cylinder is given by,

W1=∫0hρ( π r 2 )xdx=ρ(πr2)∫0hxdx=ρ(πr2)[x22]0h [Using ∫xndx=xn+1n+1]=12πρr2h2

If the cylinder is half filled, then the work done to empty the half-filled cylinder is given by

W2=∫ h 2hρ( π r 2 )xdx=ρ(πr2)∫h2hxdx=ρ(πr2)[x22]h2h [Using ∫xndx=xn+1n+1]=12πρr2[h2−h24]=38πρr2h2

Thus,

W1W2=12πρr2h238πρr2h2=43⇒W2=34W1

Therefore, the amount of work to pump the water out of a half-full cylinder is three-fourth the amount of work to pump the water out of the full cylinder.

Conclusion:

Hence, the given statement is false.

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 3

Textbook Question

Chapter 2, Problem 435RE

True or False? Justify your answer with a proof or a counterexample.

435. The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder.

Expert Solution & Answer

To determine

To check: whether the statement, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder” is true or false.

Answer to Problem 435RE

The given statement is false.

Explanation of Solution

Given information:

The given statement is, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder”.

Calculation:

Consider a cylinder of radius r and height h .

Let x be the vertical distance below the top of the tank and the density of water is ρ .

So, the work done to empty the completely filled cylinder is given by,

W1=∫0hρ( π r 2 )xdx=ρ(πr2)∫0hxdx=ρ(πr2)[x22]0h [Using ∫xndx=xn+1n+1]=12πρr2h2

If the cylinder is half filled, then the work done to empty the half-filled cylinder is given by

W2=∫ h 2hρ( π r 2 )xdx=ρ(πr2)∫h2hxdx=ρ(πr2)[x22]h2h [Using ∫xndx=xn+1n+1]=12πρr2[h2−h24]=38πρr2h2

Thus,

W1W2=12πρr2h238πρr2h2=43⇒W2=34W1

Therefore, the amount of work to pump the water out of a half-full cylinder is three-fourth the amount of work to pump the water out of the full cylinder.

Conclusion:

Hence, the given statement is false.

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 4

Textbook Question

Chapter 2, Problem 435RE

True or False? Justify your answer with a proof or a counterexample.

435. The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder.

Expert Solution & Answer

To determine

To check: whether the statement, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder” is true or false.

Answer to Problem 435RE

The given statement is false.

Explanation of Solution

Given information:

The given statement is, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder”.

Calculation:

Consider a cylinder of radius r and height h .

Let x be the vertical distance below the top of the tank and the density of water is ρ .

So, the work done to empty the completely filled cylinder is given by,

W1=∫0hρ( π r 2 )xdx=ρ(πr2)∫0hxdx=ρ(πr2)[x22]0h [Using ∫xndx=xn+1n+1]=12πρr2h2

If the cylinder is half filled, then the work done to empty the half-filled cylinder is given by

W2=∫ h 2hρ( π r 2 )xdx=ρ(πr2)∫h2hxdx=ρ(πr2)[x22]h2h [Using ∫xndx=xn+1n+1]=12πρr2[h2−h24]=38πρr2h2

Thus,

W1W2=12πρr2h238πρr2h2=43⇒W2=34W1

Therefore, the amount of work to pump the water out of a half-full cylinder is three-fourth the amount of work to pump the water out of the full cylinder.

Conclusion:

Hence, the given statement is false.

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

To check: whether the statement, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder” is true or false.

Answer to Problem 435RE

The given statement is false.

Explanation of Solution

Given information:

The given statement is, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder”.

Calculation:

Consider a cylinder of radius r and height h .

Let x be the vertical distance below the top of the tank and the density of water is ρ .

So, the work done to empty the completely filled cylinder is given by,

W1=∫0hρ( π r 2 )xdx=ρ(πr2)∫0hxdx=ρ(πr2)[x22]0h [Using ∫xndx=xn+1n+1]=12πρr2h2

If the cylinder is half filled, then the work done to empty the half-filled cylinder is given by

W2=∫ h 2hρ( π r 2 )xdx=ρ(πr2)∫h2hxdx=ρ(πr2)[x22]h2h [Using ∫xndx=xn+1n+1]=12πρr2[h2−h24]=38πρr2h2

Thus,

W1W2=12πρr2h238πρr2h2=43⇒W2=34W1

Therefore, the amount of work to pump the water out of a half-full cylinder is three-fourth the amount of work to pump the water out of the full cylinder.

Conclusion:

Hence, the given statement is false.

Answer 8

Expert Solution & Answer

To determine

To check: whether the statement, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder” is true or false.

Answer to Problem 435RE

The given statement is false.

Explanation of Solution

Given information:

The given statement is, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder”.

Calculation:

Consider a cylinder of radius r and height h .

Let x be the vertical distance below the top of the tank and the density of water is ρ .

So, the work done to empty the completely filled cylinder is given by,

W1=∫0hρ( π r 2 )xdx=ρ(πr2)∫0hxdx=ρ(πr2)[x22]0h [Using ∫xndx=xn+1n+1]=12πρr2h2

If the cylinder is half filled, then the work done to empty the half-filled cylinder is given by

W2=∫ h 2hρ( π r 2 )xdx=ρ(πr2)∫h2hxdx=ρ(πr2)[x22]h2h [Using ∫xndx=xn+1n+1]=12πρr2[h2−h24]=38πρr2h2

Thus,

W1W2=12πρr2h238πρr2h2=43⇒W2=34W1

Therefore, the amount of work to pump the water out of a half-full cylinder is three-fourth the amount of work to pump the water out of the full cylinder.

Conclusion:

Hence, the given statement is false.

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

To check: whether the statement, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder” is true or false.

Answer 12

Answer to Problem 435RE

The given statement is false.

Answer 13

Explanation of Solution

Given information:

The given statement is, “The amount of work to pump the water out of a half-full cylinder is half the amount of work to pump the water out of the full cylinder”.

Calculation:

Consider a cylinder of radius r and height h .

Let x be the vertical distance below the top of the tank and the density of water is ρ .

So, the work done to empty the completely filled cylinder is given by,

W1=∫0hρ( π r 2 )xdx=ρ(πr2)∫0hxdx=ρ(πr2)[x22]0h [Using ∫xndx=xn+1n+1]=12πρr2h2

If the cylinder is half filled, then the work done to empty the half-filled cylinder is given by

W2=∫ h 2hρ( π r 2 )xdx=ρ(πr2)∫h2hxdx=ρ(πr2)[x22]h2h [Using ∫xndx=xn+1n+1]=12πρr2[h2−h24]=38πρr2h2

Thus,

W1W2=12πρr2h238πρr2h2=43⇒W2=34W1

Therefore, the amount of work to pump the water out of a half-full cylinder is three-fourth the amount of work to pump the water out of the full cylinder.

Conclusion:

Hence, the given statement is false.