We fully submerge an irregular 3 kg lump of material in a certain fluid. The fluid that would have been in the space now occupied by the lump has a mass of 2 kg. (a) When we release the lump, does it move upward, move downward, or remain in place? (b) If we next fully submerge the lump in a less dense fluid and again release it, what does it do?

Question

Want to see more full solutions like this?

Answer 1

Textbook Question

Chapter 14, Problem 1Q

We fully submerge an irregular 3 kg lump of material in a certain fluid. The fluid that would have been in the space now occupied by the lump has a mass of 2 kg. (a) When we release the lump, does it move upward, move downward, or remain in place? (b) If we next fully submerge the lump in a less dense fluid and again release it, what does it do?

Expert Solution & Answer

To determine

To find:

a) Movement of block when we release the irregular lump in a certain fluid.

b) Movement of block when we release the lump in a less dense fluid.

Explanation of Solution

1) Concept:

To float the object in fluid, buoyant force must be greater than or equal to the weight of object.

2) Formulae:

Buoyant force FB=ρVg

3) Given:

Mass of irregular submerged lump =3 kg

Mass of fluid mf=2kg

4) Calculations:

We have

Buoyant force FB=mfg

Weight of lump W=mg

We know that to float an object in a fluid, the buoyant force must be greater than or equal to the weight of the object.

i.e. FB≥W

a) As the mass of the submerged lump is greater than the mass of fluid, when the lump is released, it moves downwards.

b) If another fluid has less density, buoyant force will be less. Hence, the lump will move downwards due to greater weight than buoyant force.

Conclusion:

By comparing the buoyant force and the weight of object for each case, we can conclude whether an irregular lump of material floats or moves downwards.

Want to see more full solutions like this?

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

Students have asked these similar questions

Experimental Research Report Template Title: Paper Airplane Flight. Materials: Paper, ruler, tape Procedure: Fold paper into different airplane designs, such as dart, glider, or classic. Measure and record the distances each design flies when thrown with the same force. Discuss aerodynamics and the factors that affect flight distance. Introduction: (What do you expect to learn? What is the purpose of this lab? List any questions this experiment will answer.) Hypothesis: (Predict the outcome(s) of the experiment, must be in an “if…then format.) Materials: (What equipment and materials did you need for this experiment assignment? Describe how any equipment was connected. Also mention any special hardware or connections. List the name and amount of each item used.) Procedures: (What steps did you take to accomplish this lab assignment? Include Safety Precautions.) Data Collection: (Record the data that is required at each step of the…

Title: Studying the Relationship Between Drop Height and Bouncing Height of a Ball: You can drop balls of different materials (e.g., rubber, plastic, ping pong) from various heights onto a flat surface and measure the height of their bounce using a ruler. Introduction: (What do you expect to learn? What is the purpose of this lab? List any questions this experiment will answer.) Hypothesis: (Predict the outcome(s) of the experiment, must be in an “if…then format.) Materials: (What equipment and materials did you need for this experiment assignment? Describe how any equipment was connected. Also mention any special hardware or connections. List the name and amount of each item used.) Procedures: (What steps did you take to accomplish this lab assignment? Include Safety Precautions.) Data Collection: (Record the data that is required at each step of the lab: tables, charts, graphs, sketches, etc.) Data Analysis: (Explain you…

A traveler at an airport takes an escalator up one floor as in the figure below. The moving staircase would itself carry him upward with vertical velocity component v between entry and exit points separated by height h. However, while the escalator is moving, the hurried traveler climbs the steps of the escalator at a rate of n steps/s. Assume that the height of each step is hs. (a) Determine the amount of chemical energy converted into mechanical energy by the traveler's leg muscles during his escalator ride given that his mass is m. (Use any variable or symbol stated above along with the following as necessary: g.) energy = (b) Determine the work the escalator motor does on this person. (Use any variable or symbol stated above along with the following as necessary: g.) work =

Answer 2

Textbook Question

Chapter 14, Problem 1Q

We fully submerge an irregular 3 kg lump of material in a certain fluid. The fluid that would have been in the space now occupied by the lump has a mass of 2 kg. (a) When we release the lump, does it move upward, move downward, or remain in place? (b) If we next fully submerge the lump in a less dense fluid and again release it, what does it do?

Expert Solution & Answer

To determine

To find:

a) Movement of block when we release the irregular lump in a certain fluid.

b) Movement of block when we release the lump in a less dense fluid.

Explanation of Solution

1) Concept:

To float the object in fluid, buoyant force must be greater than or equal to the weight of object.

2) Formulae:

Buoyant force FB=ρVg

3) Given:

Mass of irregular submerged lump =3 kg

Mass of fluid mf=2kg

4) Calculations:

We have

Buoyant force FB=mfg

Weight of lump W=mg

We know that to float an object in a fluid, the buoyant force must be greater than or equal to the weight of the object.

i.e. FB≥W

a) As the mass of the submerged lump is greater than the mass of fluid, when the lump is released, it moves downwards.

b) If another fluid has less density, buoyant force will be less. Hence, the lump will move downwards due to greater weight than buoyant force.

Conclusion:

By comparing the buoyant force and the weight of object for each case, we can conclude whether an irregular lump of material floats or moves downwards.

Want to see more full solutions like this?

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

Answer 3

Textbook Question

Chapter 14, Problem 1Q

We fully submerge an irregular 3 kg lump of material in a certain fluid. The fluid that would have been in the space now occupied by the lump has a mass of 2 kg. (a) When we release the lump, does it move upward, move downward, or remain in place? (b) If we next fully submerge the lump in a less dense fluid and again release it, what does it do?

Expert Solution & Answer

To determine

To find:

a) Movement of block when we release the irregular lump in a certain fluid.

b) Movement of block when we release the lump in a less dense fluid.

Explanation of Solution

1) Concept:

To float the object in fluid, buoyant force must be greater than or equal to the weight of object.

2) Formulae:

Buoyant force FB=ρVg

3) Given:

Mass of irregular submerged lump =3 kg

Mass of fluid mf=2kg

4) Calculations:

We have

Buoyant force FB=mfg

Weight of lump W=mg

We know that to float an object in a fluid, the buoyant force must be greater than or equal to the weight of the object.

i.e. FB≥W

a) As the mass of the submerged lump is greater than the mass of fluid, when the lump is released, it moves downwards.

b) If another fluid has less density, buoyant force will be less. Hence, the lump will move downwards due to greater weight than buoyant force.

Conclusion:

By comparing the buoyant force and the weight of object for each case, we can conclude whether an irregular lump of material floats or moves downwards.

Want to see more full solutions like this?

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

Answer 4

Textbook Question

Chapter 14, Problem 1Q

We fully submerge an irregular 3 kg lump of material in a certain fluid. The fluid that would have been in the space now occupied by the lump has a mass of 2 kg. (a) When we release the lump, does it move upward, move downward, or remain in place? (b) If we next fully submerge the lump in a less dense fluid and again release it, what does it do?

Expert Solution & Answer

To determine

To find:

a) Movement of block when we release the irregular lump in a certain fluid.

b) Movement of block when we release the lump in a less dense fluid.

Explanation of Solution

1) Concept:

To float the object in fluid, buoyant force must be greater than or equal to the weight of object.

2) Formulae:

Buoyant force FB=ρVg

3) Given:

Mass of irregular submerged lump =3 kg

Mass of fluid mf=2kg

4) Calculations:

We have

Buoyant force FB=mfg

Weight of lump W=mg

We know that to float an object in a fluid, the buoyant force must be greater than or equal to the weight of the object.

i.e. FB≥W

a) As the mass of the submerged lump is greater than the mass of fluid, when the lump is released, it moves downwards.

b) If another fluid has less density, buoyant force will be less. Hence, the lump will move downwards due to greater weight than buoyant force.

Conclusion:

By comparing the buoyant force and the weight of object for each case, we can conclude whether an irregular lump of material floats or moves downwards.

Want to see more full solutions like this?

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

Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

To find:

a) Movement of block when we release the irregular lump in a certain fluid.

b) Movement of block when we release the lump in a less dense fluid.

Explanation of Solution

1) Concept:

To float the object in fluid, buoyant force must be greater than or equal to the weight of object.

2) Formulae:

Buoyant force FB=ρVg

3) Given:

Mass of irregular submerged lump =3 kg

Mass of fluid mf=2kg

4) Calculations:

We have

Buoyant force FB=mfg

Weight of lump W=mg

We know that to float an object in a fluid, the buoyant force must be greater than or equal to the weight of the object.

i.e. FB≥W

a) As the mass of the submerged lump is greater than the mass of fluid, when the lump is released, it moves downwards.

b) If another fluid has less density, buoyant force will be less. Hence, the lump will move downwards due to greater weight than buoyant force.

Conclusion:

By comparing the buoyant force and the weight of object for each case, we can conclude whether an irregular lump of material floats or moves downwards.

Answer 8

Expert Solution & Answer

To determine

To find:

a) Movement of block when we release the irregular lump in a certain fluid.

b) Movement of block when we release the lump in a less dense fluid.

Explanation of Solution

1) Concept:

To float the object in fluid, buoyant force must be greater than or equal to the weight of object.

2) Formulae:

Buoyant force FB=ρVg

3) Given:

Mass of irregular submerged lump =3 kg

Mass of fluid mf=2kg

4) Calculations:

We have

Buoyant force FB=mfg

Weight of lump W=mg

We know that to float an object in a fluid, the buoyant force must be greater than or equal to the weight of the object.

i.e. FB≥W

a) As the mass of the submerged lump is greater than the mass of fluid, when the lump is released, it moves downwards.

b) If another fluid has less density, buoyant force will be less. Hence, the lump will move downwards due to greater weight than buoyant force.

Conclusion:

By comparing the buoyant force and the weight of object for each case, we can conclude whether an irregular lump of material floats or moves downwards.

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

To find:

a) Movement of block when we release the irregular lump in a certain fluid.

b) Movement of block when we release the lump in a less dense fluid.

Answer 12

Explanation of Solution

1) Concept:

To float the object in fluid, buoyant force must be greater than or equal to the weight of object.

2) Formulae:

Buoyant force FB=ρVg

3) Given:

Mass of irregular submerged lump =3 kg

Mass of fluid mf=2kg

4) Calculations:

We have

Buoyant force FB=mfg

Weight of lump W=mg

We know that to float an object in a fluid, the buoyant force must be greater than or equal to the weight of the object.

i.e. FB≥W

a) As the mass of the submerged lump is greater than the mass of fluid, when the lump is released, it moves downwards.

b) If another fluid has less density, buoyant force will be less. Hence, the lump will move downwards due to greater weight than buoyant force.

Conclusion:

By comparing the buoyant force and the weight of object for each case, we can conclude whether an irregular lump of material floats or moves downwards.

Answer 13

Ch. 14 - We fully submerge an irregular 3 kg lump of...Ch. 14 - A boat with an anchor on board floats in a...Ch. 14 - ILW A fish maintains its depth in fresh water by...Ch. 14 - A partially evacuated airtight container has a...Ch. 14 - SSM Find the pressure increase in the fluid in a...Ch. 14 - Three liquids that will not mix are poured into a...Ch. 14 - SSM An office window has dimensions 3.4 m by 2.1...Ch. 14 - Prob. 6P Ch. 14 - The bends during flight. Anyone who scuba dives is...Ch. 14 - Blood pressure in Argentinosaurus. a If this...

Videos

Explanation of Solution

Want to see more full solutions like this?

Chapter 14 Solutions

Additional Science Textbook Solutions