(a) To determine To identify: Whether a balloon will rise or not for the given condition. Answer No, the balloon will not rise. Explanation Introduction: When a body is placed in a fluid then it displaces some amount of fluid. The displaced weight start applying some upward force (or buoyancy force) and its magnitude is equal to weight of displaced fluid. Therefore, when the body has a weight lesser than buoyancy force then body is pushed upward. This is the reason for floating of one object over other. The weight of body is directly proportional to density. So, if two gases of different densities are mixed, then the gas which has low density will float over the other gas. The balloon is filled with helium which has lower density than other gases that are present in atmosphere like oxygen, nitrogen. For floating of balloon only there is comparison of densities of gasses outside and inside the balloon not pressure. Thus, pressure does not have any effect. (b) To determine To identify: Whether a balloon will rise or not for the given condition. Answer No, a balloon will not rise. Explanation Introduction: When a body is placed in a fluid then it displaces some amount of fluid. The displaced weight start applying some upward force (or buoyancy force) and its magnitude is equal to weight of displaced fluid. Therefore, when the body has a weight lesser than buoyancy force then body is pushed upward. This is the reason for floating of one object over other. The weight of body is directly proportional to density. So, if two gases of different densities are mixed, then the gas which has low density will float over the other gas. When there is no pressure then there is completely vacuum. For floating of balloon only there is comparison between densities of gasses outside and inside the balloon not pressure. The density of air present in balloon will always greater than the outside of balloon. Thus, balloon will not rise in the absence of atmospheric pressure.

Conceptual Physics: The High School Physics Program

9th Edition

ISBN: 9780133647495

Author: Paul G. Hewitt

Publisher: Prentice Hall

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Textbook Question

Chapter 20, Problem 45A

a. Would a balloon rise in an atmosphere where the pressure was somehow the same at all altitudes?

b. Would a balloon rise in the complete absence of atmospheric pressure (for example, at the surface of the moon)?

(a)

Expert Solution

To determine

To identify: Whether a balloon will rise or not for the given condition.

Answer to Problem 45A

No, the balloon will not rise.

Explanation of Solution

Introduction:

When a body is placed in a fluid then it displaces some amount of fluid. The displaced weight start applying some upward force (or buoyancy force) and its magnitude is equal to weight of displaced fluid. Therefore, when the body has a weight lesser than buoyancy force then body is pushed upward. This is the reason for floating of one object over other.

The weight of body is directly proportional to density. So, if two gases of different densities are mixed, then the gas which has low density will float over the other gas.

The balloon is filled with helium which has lower density than other gases that are present in atmosphere like oxygen, nitrogen. For floating of balloon only there is comparison of densities of gasses outside and inside the balloon not pressure. Thus, pressure does not have any effect.

(b)

Expert Solution

To determine

To identify: Whether a balloon will rise or not for the given condition.

Answer to Problem 45A

No, a balloon will not rise.

Explanation of Solution

Introduction:

The weight of body is directly proportional to density. So, if two gases of different densities are mixed, then the gas which has low density will float over the other gas.

When there is no pressure then there is completely vacuum. For floating of balloon only there is comparison between densities of gasses outside and inside the balloon not pressure. The density of air present in balloon will always greater than the outside of balloon.

Thus, balloon will not rise in the absence of atmospheric pressure.

Chapter 20, Problem 44A

Chapter 20, Problem 46A

Chapter 20 Solutions

Conceptual Physics: The High School Physics Program

Ch. 20 - Prob. 1A Ch. 20 - How does the density of gases at different...Ch. 20 - What causes atmospheric pressure?Ch. 20 - Why doesnt the pressure of the atmosphere break...Ch. 20 - What is the mass of a cubic meter of air at 20C at...Ch. 20 - Prob. 6A Ch. 20 - Prob. 7A Ch. 20 - How does the pressure at the bottom of the 76-cm...Ch. 20 - When you drink liquid through a straw, it is more...Ch. 20 - Why will a vacuum pump not operate for a well that...

Ch. 20 - The atmosphere does not ordinarily crush cans. Yet...Ch. 20 - What property of atmospheric pressure is used by...Ch. 20 - When air is compressed, what happens to its...Ch. 20 - A piston in an airtight pump is withdrawn so that...Ch. 20 - When you squeeze an air-filled toy balloon to half...Ch. 20 - a. How much buoyant force acts on a 1-N balloon...Ch. 20 - When the speed of a fluid flowing in a horizontal...Ch. 20 - Prob. 18A Ch. 20 - In addition to Bernoullis principle, what other...Ch. 20 - Why does a spinning ball curve in flight?Ch. 20 - Calculate the density of a gas with a mass of 4.29...Ch. 20 - Calculate the density of a gas with a mass of...Ch. 20 - An inflated balloon has internal pressure P1. Use...Ch. 20 - Use Boyles law to calculate the pressure on the...Ch. 20 - Calculate the lift on a model airplane wing with...Ch. 20 - We can understand how pressure in water depends on...Ch. 20 - Prob. 27A Ch. 20 - Which would weigh moreâ€”a bottle filled with...Ch. 20 - Prob. 29A Ch. 20 - From Table 20.1, which filling would be more...Ch. 20 - A helium-filled balloon pulls upward on its...Ch. 20 - Prob. 32A Ch. 20 - How would the density of air at the bottom of a...Ch. 20 - Atmospheric pressure is nicely demonstrated with...Ch. 20 - Relative to sea level, would it be slightly more...Ch. 20 - If there were a liquid twice as dense as mercury,...Ch. 20 - Before boarding an airplane, you buy a bag of...Ch. 20 - Why do you suppose that airplane windows are...Ch. 20 - Why do your ears pop' when you ascend to higher...Ch. 20 - Prob. 40A Ch. 20 - When you squeeze an air-filled toy balloon, its...Ch. 20 - Prob. 42A Ch. 20 - It is easy to breathe when snorkeling with only...Ch. 20 - Prob. 44A Ch. 20 - a. Would a balloon rise in an atmosphere where the...Ch. 20 - The buoyant force of air is considerably greater...Ch. 20 - Why is it that when cars pass each other at high...Ch. 20 - In a department store, an air stream from a hose...Ch. 20 - What physics principle underlies the following...Ch. 20 - Prob. 50A Ch. 20 - The diameter of a fire hose varies with the flow...Ch. 20 - You overhear a conversation between two physics...Ch. 20 - Explain how an airplane is able to fly upside...Ch. 20 - A typical school gym is about 60.0m30.0m10.0m....Ch. 20 - The 'height' of the atmosphere is about 30 km. The...Ch. 20 - Prob. 56A Ch. 20 - Average atmospheric pressure at Earths surface is...Ch. 20 - A party balloon is squeezed to 2/3 of its initial...Ch. 20 - An automobile is supported by four tires inflated...Ch. 20 - Prob. 60A Ch. 20 - A mercury barometer reads 760 mm at sea level....Ch. 20 - Prob. 62A Ch. 20 - Referring to the previous problem, find the volume...Ch. 20 - In 1982 Larry Walters ascended from his home in...Ch. 20 - How many newtons of lift are exerted on the wings...Ch. 20 - Try this in the bathtub or while washing dishes....Ch. 20 - Place a card over the open top of a glass filled...Ch. 20 - Fill a bottle with water and hold it partially...Ch. 20 - Hold a spoon in a stream of water, as shown....

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