EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
9th Edition
ISBN: 8220100654428
Author: Jewett
Publisher: Cengage Learning US
Question
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Chapter 6, Problem 6.49AP

(a)

To determine

The slope of the straight line, including units.

(a)

Expert Solution
Check Mark

Answer to Problem 6.49AP

The slope of the straight line is 0.0162kg/m .

Explanation of Solution

From the Figure, the terminal speed of the filters is 5(m/s)2 and the resistive force towards the speed is 0.081kg-m/s2 .

Formula to calculate the slope is,

tanθ=R(v)2

Substitute 0.081kg-m/s2 for R and 5(m/s)2 for v in the above equation.

tanθ=0.081kg-m/s25(m/s)2=0.0162kg/m

Conclusion:

Therefore, the slope of the straight line is 0.0162kg/m .

(b)

To determine

The theoretical slope of a graph of resistive force versus squared speed.

(b)

Expert Solution
Check Mark

Answer to Problem 6.49AP

The theoretical slope of a graph of resistive force versus squared speed is 12DρA .

Explanation of Solution

Given info:

The expression for the resistive force is,

R=12DρAv2

Here,

ρ is the density of the coffee.

A is the cross sectional area of the coffee filters.

D is the drag coefficient.

v is the terminal velocity.

Formula to calculate the slope is,

tanθ=R(v)2

Substitute 12DρAv2 for R in the above equation.

tanθ=12DρAv2(v)2=12DρA

Conclusion:

Therefore, the theoretical slope of a graph of resistive force versus squared speed is 12DρA .

(c)

To determine

The drag coefficient of the filters.

(c)

Expert Solution
Check Mark

Answer to Problem 6.49AP

The drag coefficient of the filters is 0.778 .

Explanation of Solution

Given info: Radius of the circle is 10.5cm . The density of the air is 1.20kg/m3 .

Formula to calculate the area of the circle is,

A=πr2

Here,

r radius of the circle.

A is the area of the circle.

Substitute 10.5cm for r in the above equation.

A=π(10.5cm)2=346.36cm(1m100cm)=3.463m

Thus, the area of the circle is 3.463m .

Formula to calculate the drag coefficient is,

D=2RρA

Here,

ρ is the density of the coffee.

A is the cross sectional area of the coffee filters.

D is the drag coefficient.

v is the terminal velocity.

Substitute 0.0162kg/m for R and 1.20kg/m3 for ρ , 3.463m for A in the above equation.

D=2(0.0162kg/m)(1.20kg/m3)3.463m=0.77960.778

Conclusion:

Therefore, the drag coefficient of the filters is 0.778 .

(d)

To determine

The vertical separation from the line best fit for the eight data point.

(d)

Expert Solution
Check Mark

Answer to Problem 6.49AP

The vertical separation from the line best fit for the eight data point is 1.5% .

Explanation of Solution

Given info:

Form the Figure (1), the force at point 8 in the graph, the mass off the coffee is 0.164kg .

Formula to calculate the force at point 8 is,

F=mg

Substitute 0.164kg for m and 9.81m/s2 for g in the above equation.

F=8(1.64kg)9.81m/s2=128.70kg-m/s2(1N1000kg-m/s2)=0.1287N=0.129N

The terminal speed of the filters is 2.8(m/s)2 and the resistive force towards the speed is 0.162kg/m .

The vertical separation from the line best fit for the eight data point is,

d=0.129N0.127N0.127N=1.57%1.5%

Conclusion:

Therefore, the vertical separation from the line best fit for the eight data point is 1.5% .

(e)

To determine

The explanation for what graph explains and compare it with the theoretical prediction.

(e)

Expert Solution
Check Mark

Answer to Problem 6.49AP

The graph for the coffee filter falling in air at terminal speed shows the resistance force is a function of the terminal speed squared which gives the air resistance.

Explanation of Solution

Given info:

The drag coefficient of the filters is 0.778 and the vertical separation from the line best fit for the eight data point is 1.5% .

Thus, the constant slope of the graph is,

D=0.778±2%

The graph for the coffee filter falling in air at terminal speed shows the resistance force is a function of the terminal speed squared which gives the air resistance.

The expression for the resistive force is,

R=12DρAv2

From this given expression,

Rv2

Thus, the graph of the resistive force is directly proportional to the terminal speed squared.

Conclusion:

Therefore, the graph for the coffee filter falling in air at terminal speed shows the resistance force is a function of the terminal speed squared which gives the air resistance.

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Chapter 6 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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