(a) The work done in the first 0.100 m by plotting a graph between F and x.

Question

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Answer 1

Question

Chapter 6, Problem 37QAP

To determine

(a)

The work done in the first 0.100 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.100 m is 0.812 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

Enter the values of x and F in an excel sheet and plot a graph as shown below.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 1

For the displacement of 0.1 s, calculate the area under the curve.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 2

The work done during the displacement of 0.1 s is equal to area OABC.

Calculate the area of the figure OABC.

W= area OABC=12(OD×AD)+12(AD+BC)(CD)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)=0.812 J

Conclusion:

Thus, the work done in the first 0.100 m is 0.812 J.

To determine

(b)

The work done in the first 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.200 m is 2.06 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 3

The work done during the displacement of 0.200 m is given by the area OABEF.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area OABEF=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)=2.06 J

Conclusion:

Thus, the work done in the first 0.200 m is 2.06 J.

To determine

(c)

The work done during the displacement from 0.100 m to 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 4

The work done during the displacement from 0.100 m to 0.200 m is given by the area BEFC.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area BEFC=(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=(BE×EF)=(0.100 m)(12.50 N)=1.25 J

Conclusion:

Thus, the work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

To determine

(d)

The work done during the entire motion 0<x<0.250 m.

Expert Solution

Answer to Problem 37QAP

The work done during the entire motion 0<x<0.250 m is 2.37 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 5

The work done during the entire displacement is given by the area OABEG.

W= area OABEG=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)+12(12.50 N)(0.050 m)=2.37 J

Conclusion:

Thus, the work done during the entire motion 0<x<0.250 m is 2.37 J.

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Answer 2

Question

Chapter 6, Problem 37QAP

To determine

(a)

The work done in the first 0.100 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.100 m is 0.812 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

Enter the values of x and F in an excel sheet and plot a graph as shown below.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 1

For the displacement of 0.1 s, calculate the area under the curve.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 2

The work done during the displacement of 0.1 s is equal to area OABC.

Calculate the area of the figure OABC.

W= area OABC=12(OD×AD)+12(AD+BC)(CD)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)=0.812 J

Conclusion:

Thus, the work done in the first 0.100 m is 0.812 J.

To determine

(b)

The work done in the first 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.200 m is 2.06 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 3

The work done during the displacement of 0.200 m is given by the area OABEF.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area OABEF=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)=2.06 J

Conclusion:

Thus, the work done in the first 0.200 m is 2.06 J.

To determine

(c)

The work done during the displacement from 0.100 m to 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 4

The work done during the displacement from 0.100 m to 0.200 m is given by the area BEFC.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area BEFC=(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=(BE×EF)=(0.100 m)(12.50 N)=1.25 J

Conclusion:

Thus, the work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

To determine

(d)

The work done during the entire motion 0<x<0.250 m.

Expert Solution

Answer to Problem 37QAP

The work done during the entire motion 0<x<0.250 m is 2.37 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 5

The work done during the entire displacement is given by the area OABEG.

W= area OABEG=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)+12(12.50 N)(0.050 m)=2.37 J

Conclusion:

Thus, the work done during the entire motion 0<x<0.250 m is 2.37 J.

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

Answer 3

Question

Chapter 6, Problem 37QAP

To determine

(a)

The work done in the first 0.100 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.100 m is 0.812 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

Enter the values of x and F in an excel sheet and plot a graph as shown below.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 1

For the displacement of 0.1 s, calculate the area under the curve.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 2

The work done during the displacement of 0.1 s is equal to area OABC.

Calculate the area of the figure OABC.

W= area OABC=12(OD×AD)+12(AD+BC)(CD)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)=0.812 J

Conclusion:

Thus, the work done in the first 0.100 m is 0.812 J.

To determine

(b)

The work done in the first 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.200 m is 2.06 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 3

The work done during the displacement of 0.200 m is given by the area OABEF.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area OABEF=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)=2.06 J

Conclusion:

Thus, the work done in the first 0.200 m is 2.06 J.

To determine

(c)

The work done during the displacement from 0.100 m to 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 4

The work done during the displacement from 0.100 m to 0.200 m is given by the area BEFC.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area BEFC=(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=(BE×EF)=(0.100 m)(12.50 N)=1.25 J

Conclusion:

Thus, the work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

To determine

(d)

The work done during the entire motion 0<x<0.250 m.

Expert Solution

Answer to Problem 37QAP

The work done during the entire motion 0<x<0.250 m is 2.37 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 5

The work done during the entire displacement is given by the area OABEG.

W= area OABEG=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)+12(12.50 N)(0.050 m)=2.37 J

Conclusion:

Thus, the work done during the entire motion 0<x<0.250 m is 2.37 J.

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

Answer 4

Question

Chapter 6, Problem 37QAP

To determine

(a)

The work done in the first 0.100 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.100 m is 0.812 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

Enter the values of x and F in an excel sheet and plot a graph as shown below.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 1

For the displacement of 0.1 s, calculate the area under the curve.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 2

The work done during the displacement of 0.1 s is equal to area OABC.

Calculate the area of the figure OABC.

W= area OABC=12(OD×AD)+12(AD+BC)(CD)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)=0.812 J

Conclusion:

Thus, the work done in the first 0.100 m is 0.812 J.

To determine

(b)

The work done in the first 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.200 m is 2.06 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 3

The work done during the displacement of 0.200 m is given by the area OABEF.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area OABEF=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)=2.06 J

Conclusion:

Thus, the work done in the first 0.200 m is 2.06 J.

To determine

(c)

The work done during the displacement from 0.100 m to 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 4

The work done during the displacement from 0.100 m to 0.200 m is given by the area BEFC.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area BEFC=(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=(BE×EF)=(0.100 m)(12.50 N)=1.25 J

Conclusion:

Thus, the work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

To determine

(d)

The work done during the entire motion 0<x<0.250 m.

Expert Solution

Answer to Problem 37QAP

The work done during the entire motion 0<x<0.250 m is 2.37 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 5

The work done during the entire displacement is given by the area OABEG.

W= area OABEG=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)+12(12.50 N)(0.050 m)=2.37 J

Conclusion:

Thus, the work done during the entire motion 0<x<0.250 m is 2.37 J.

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Answer 5

Chapter 6, Problem 37QAP

To determine

(a)

The work done in the first 0.100 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.100 m is 0.812 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

Enter the values of x and F in an excel sheet and plot a graph as shown below.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 1

For the displacement of 0.1 s, calculate the area under the curve.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 2

The work done during the displacement of 0.1 s is equal to area OABC.

Calculate the area of the figure OABC.

W= area OABC=12(OD×AD)+12(AD+BC)(CD)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)=0.812 J

Conclusion:

Thus, the work done in the first 0.100 m is 0.812 J.

To determine

(b)

The work done in the first 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.200 m is 2.06 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 3

The work done during the displacement of 0.200 m is given by the area OABEF.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area OABEF=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)=2.06 J

Conclusion:

Thus, the work done in the first 0.200 m is 2.06 J.

To determine

(c)

The work done during the displacement from 0.100 m to 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 4

The work done during the displacement from 0.100 m to 0.200 m is given by the area BEFC.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area BEFC=(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=(BE×EF)=(0.100 m)(12.50 N)=1.25 J

Conclusion:

Thus, the work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

To determine

(d)

The work done during the entire motion 0<x<0.250 m.

Expert Solution

Answer to Problem 37QAP

The work done during the entire motion 0<x<0.250 m is 2.37 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 5

The work done during the entire displacement is given by the area OABEG.

W= area OABEG=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)+12(12.50 N)(0.050 m)=2.37 J

Conclusion:

Thus, the work done during the entire motion 0<x<0.250 m is 2.37 J.

Answer 6

Chapter 6, Problem 37QAP

To determine

(a)

The work done in the first 0.100 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.100 m is 0.812 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

Enter the values of x and F in an excel sheet and plot a graph as shown below.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 1

For the displacement of 0.1 s, calculate the area under the curve.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 2

The work done during the displacement of 0.1 s is equal to area OABC.

Calculate the area of the figure OABC.

W= area OABC=12(OD×AD)+12(AD+BC)(CD)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)=0.812 J

Conclusion:

Thus, the work done in the first 0.100 m is 0.812 J.

Answer 7

Chapter 6, Problem 37QAP

To determine

(a)

The work done in the first 0.100 m by plotting a graph between F and x.

Answer 8

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.100 m is 0.812 J.

Answer 9

Expert Solution

Answer 10

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

Enter the values of x and F in an excel sheet and plot a graph as shown below.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 1

For the displacement of 0.1 s, calculate the area under the curve.

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 2

The work done during the displacement of 0.1 s is equal to area OABC.

Calculate the area of the figure OABC.

W= area OABC=12(OD×AD)+12(AD+BC)(CD)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)=0.812 J

Conclusion:

Thus, the work done in the first 0.100 m is 0.812 J.

Answer 13

To determine

(b)

The work done in the first 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.200 m is 2.06 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 3

The work done during the displacement of 0.200 m is given by the area OABEF.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area OABEF=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)=2.06 J

Conclusion:

Thus, the work done in the first 0.200 m is 2.06 J.

Answer 14

To determine

(b)

The work done in the first 0.200 m by plotting a graph between F and x.

Answer 15

Expert Solution

Answer to Problem 37QAP

The work done in the first 0.200 m is 2.06 J.

Answer 16

Expert Solution

Answer 17

Expert Solution

Answer 18

Expert Solution

Answer 19

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 3

The work done during the displacement of 0.200 m is given by the area OABEF.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area OABEF=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)=2.06 J

Conclusion:

Thus, the work done in the first 0.200 m is 2.06 J.

Answer 20

To determine

(c)

The work done during the displacement from 0.100 m to 0.200 m by plotting a graph between F and x.

Expert Solution

Answer to Problem 37QAP

The work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 4

The work done during the displacement from 0.100 m to 0.200 m is given by the area BEFC.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area BEFC=(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=(BE×EF)=(0.100 m)(12.50 N)=1.25 J

Conclusion:

Thus, the work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Answer 21

To determine

(c)

The work done during the displacement from 0.100 m to 0.200 m by plotting a graph between F and x.

Answer 22

Expert Solution

Answer to Problem 37QAP

The work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Answer 23

Expert Solution

Answer 24

Expert Solution

Answer 25

Expert Solution

Answer 26

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 4

The work done during the displacement from 0.100 m to 0.200 m is given by the area BEFC.

Assume an average value of Force as 12.50 N during the displacement from 0.100 m to 0.0200 m.

W= area BEFC=(BE×EF)

Substitute the values of the variables from the graph in the above equation.

W=(BE×EF)=(0.100 m)(12.50 N)=1.25 J

Conclusion:

Thus, the work done during the displacement from 0.100 m to 0.200 m is 1.25 J.

Answer 27

To determine

(d)

The work done during the entire motion 0<x<0.250 m.

Expert Solution

Answer to Problem 37QAP

The work done during the entire motion 0<x<0.250 m is 2.37 J.

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 5

The work done during the entire displacement is given by the area OABEG.

W= area OABEG=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)

Substitute the values of the variables from the graph in the above equation.

W=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)=12[(0.050 m)(10.00 N)]+12[(10.00 N)+(12.48 N)](0.050 m)+(0.100 m)(12.50 N)+12(12.50 N)(0.050 m)=2.37 J

Conclusion:

Thus, the work done during the entire motion 0<x<0.250 m is 2.37 J.

Answer 28

To determine

(d)

The work done during the entire motion 0<x<0.250 m.

Answer 29

Expert Solution

Answer to Problem 37QAP

The work done during the entire motion 0<x<0.250 m is 2.37 J.

Answer 30

Expert Solution

Answer 31

Expert Solution

Answer 32

Expert Solution

Answer 33

Explanation of Solution

Given:

The values of x and F.

x (m)	F (N)
0.0000	0.00
0.0100	2.00
0.0200	4.00
0.0300	6.00
0.0400	8.00
0.0500	10.00
0.0600	10.50
0.0700	11.00
0.0800	11.50
0.0900	12.00
0.1000	12.48
0.1100	12.48
0.1200	12.48
0.1300	12.60
0.1400	12.60
0.1500	12.70
0.1600	12.70
0.1700	12.60
0.1800	12.50
0.1900	12.50
0.2000	12.50
0.2100	12.48
0.2200	9.36
0.2300	6.24
0.2400	3.12
0.2500	0.00

Formula used:

Using an excel sheet, a graph is plotted between F and x and the work done is calculated by determining the area under the curve for the displacement under consideration.

Calculation:

The F-x graph is shown below:

FlipIt for College Physics (Algebra Version - Six Months Access), Chapter 6, Problem 37QAP , additional homework tip 5

The work done during the entire displacement is given by the area OABEG.

W= area OABEG=12(OD×AD)+12(AD+BC)(CD)+(BE×EF)+12(FG×EF)