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Engineering, section 1, Fall 2019
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Moaveni-Engineering Fundamentals(SI) 6/e (Homework)

James Finch

Engineering, section 1, Fall 2019

Instructor: Dr. Friendly

Current Score : 0 / 33

Due : Sunday, January 27, 2030 12:00 EST

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Engineering Fundamentals: An Introduction to Engineering, SI edition, 6th edition, written by Saeed Moaveni and published by Cengage Learning, helps students develop strong problem-solving skills and the solid foundation in fundamental principles needed to become analytical, detail-oriented, creative engineers. An initial overview examines what today's engineers do, with behind-the-scenes glimpses into areas of specialization. Candid discussions emphasize what it takes to succeed as an engineer today. This edition covers basic physical concepts and laws important in engineering studies and on the job. The author connects these principles to professional engineering success as he highlights the work of practicing engineers around the globe. Available via WebAssign is MindTap Reader, Cengage's next-generation eBook, and other digital resources.

Question 1 uses length and length related variables so students can calculate the volume of materials.

Question 2 uses approximation methods to calculate the length of an arc.

Question 3 uses mass flow rate and volume flow rate to calculate the average density of the gas exiting an experimental jet engine.

Question 4 uses the dimensions of two objects to determine the moment created by the weight of one of the objects about a certain point.

Question 5 uses energy efficient ratio (EER) to calculate electrical energy and coefficient of performance (COP) for a given air-conditioning.

Question 6 uses R-values expressed per unit thickness to calculate the thermal conductivity of an insulating material.

Question 7 uses the WebAssign Matrix Tool that enables students to calculate a set of equations.

Question 8 uses linear interpolation to estimate air temperatures and the corresponding speeds of sound at specific altitudes.

Question 9 uses data so students can test the performance of tires. Using the WebAssign graphing tool, students can plot the data and calculate the mean and standard deviation.

Question 10 uses the WebAssign multi-mode approach to calculate bank interest rates and decide which alternative would be most attractive. This demo assignment allows many submissions and allows you to try another version of the same question for practice wherever the problem has randomized values.

Assignment Submission

For this assignment, you submit answers by question parts. The number of submissions remaining for each question part only changes if you submit or change the answer.

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Your last submission is used for your score.

1. 0/12 points | Previous Answers MoaveniEng6SI 7.4.046.EP. My Notes

Consider a 31 m long, 63.5 mm type M copper tubing. (Due to the nature of this problem, do not use rounded intermediate values in your calculations—including answers submitted in WebAssign.)

What is the approximate nominal size of 63.5 mm in inches?

in.

What is the outside diameter in inches?

in.

Convert the outside diameter to millimeters.

What is the inside diameter of the tubing in inches?

in.

Convert the inside diameter to millimeters.

What is the length in millimeters?

What is the formula for the volume of a cylinder? (Use the following as necessary: h for the height and R for the radius. Do not substitute numerical values; use variables only.)

V =

What is the volume of the outer cylindrical shape in mm³?

mm³

What is the volume of the inner cavity in mm³?

mm³

What is the volume of the tubing? (Use the following as necessary: V_outer and V_inner. Do not substitute numerical values; use variables only.)

V =

What is the volume of the tubing in mm³?

mm³

What is the volume of tubing in cm³?

cm³

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2. –/1 points MoaveniEng6SI 7.2.042. My Notes

Calculate the arc length

S₁

in the accompanying figure (in cm).

R₂ = 9 cm,

R₁ = 6 cm,

and

S₂ = 6.36 cm.

Two circular sectors, one with arc length S₁ and the other with arc length S₂ > S₁, are formed by the same acute angle θ. The arc of length S₁ has radius R₁ and the arc of length S₂ has radius R₂ > R₁.

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3. –/1 points MoaveniEng6SI 9.3.043. My Notes

Air with a density of 0.45 kg/m³ enters an experimental jet engine at a rate of 165 m/s. The inlet area of the engine is 0.6 m². After fuel is burned, the air and combustion byproducts leave the engine with a velocity of 620 m/s through an outlet area of 0.5 m². What is the average density (in kg/m³) of the gas exiting the engine?

A jet engine is oriented such that the left end is the inlet area and the right end is the outlet area. The outlet area is smaller than the inlet area. Air enters the inlet area and air and combustion byproducts exit the outlet area.

kg/m³

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4. –/2 points MoaveniEng6SI 10.3.033. My Notes

Determine the moment (in N · m) created by the weight of the traffic light about point O. The dimensions of the traffic light post and arm are shown in the accompanying figure. The traffic light weighs 222 N.

A vertical traffic post rests on the ground, with point O at its lower end at the point of contact between the post and ground. The post is 6 m tall. The upper end of the post supports the left end of a horizontal beam, or arm. The arm is 8 m long. The right end of the arm supports the top end of a traffic light held above the ground, and the traffic light hangs vertically downward.

magnitude N · m direction

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5. –/3 points MoaveniEng6SI 13.3.012. My Notes

An air-conditioning unit has a cooling capacity of 22,000 Btu/h. If the unit has a rated energy efficiency ratio (EER) of 15, how much electrical energy (in kWh) is consumed by the unit in 1 h?

kWh

If a power company charges 19 cents per kWh usage, how much would it cost (in dollars) to run the air-conditioning unit for a month (31 days), assuming the unit runs 8 h a day?

What is the coefficient of performance (COP) for the given air-conditioning unit?

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6. –/3 points MoaveniEng6SI 11.2.008. My Notes

A manufacturer of loose-fill cellulose insulating material provides a table showing the relationship between the thickness of the material and its R-value. The manufacturer's data is shown in the accompanying table.

R-value

m² · K

Thickness (mm)

R-40

288

R-32

230

R-24

173

R-19

137

R-13

(a)

Calculate the thermal conductivity (in W/(m · K)) of the insulating material.

W/(m · K)

Determine how thick (in mm) the insulation should be to provide R-values of the following.

(b)

R-30

(c)

R-20

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7. –/1 points MoaveniEng6SI 18.5.021. My Notes

Solve the following set of equations using the Gaussian method. (If there is no solution, enter NO SOLUTION.)

−3

x₁

x₂

x₃

(x₁, x₂, x₃) =

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8. –/4 points MoaveniEng6SI 18.2.035. My Notes

The air temperature and speed of sound for the U.S. standard atmosphere is given in the accompanying table.

Altitude (m)	Air Temperature (K)	Speed of Sound (m/s)
500	284.9	338
1,000	281.7	336
2,000	275.2	332
5,000	255.7	320
10,000	223.3	299
15,000	216.7	295
20,000	216.7	295

Using linear interpolation, estimate the air temperatures (in K) and the corresponding speeds of sound (in m/s) at altitudes of 1,800 m and 8,000 m. (Round your answers to at least the nearest integer.)

1,800 m

air temperature K speed of sound m/s

8,000 m

air temperature K speed of sound m/s

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9. –/3 points MoaveniEng6SI 19.4.039. My Notes

As a chemical engineer working for a tire manufacturer, you collect the following data in order to test the performance of tires.

Kilometers with Acceptable (Reliable) Wear	Frequency
30,000	16
35,000	25
40,000	33
45,000	31
50,000	22
55,000	12

Plot the data.

A bar chart with six bars is given. All bars are drawn vertically. The horizontal axis is labeled: Kilometers with Acceptable (Reliable) Wear. The vertical axis is labeled: Frequency.

The leftmost bar is labeled 30,000 and has a height of approximately 12 units.

The second bar from the left is labeled 35,000 and has a height of approximately 16 units.

The third bar from the left is labeled 40,000 and has a height of approximately 22 units.

The fourth bar from the left is labeled 45,000 and has a height of approximately 25 units.

The fifth bar from the left is labeled 50,000 and has a height of approximately 31 units.

The sixth bar from the left is labeled 55,000 and has a height of approximately 33 units.

Calculate the mean and standard deviation (in km).

mean km standard deviation km

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10. –/3 points MoaveniEng6SI 20.4.022. My Notes

You need to borrow $18,000 to buy a car, so you visit two banks and are given two alternatives. The first bank allows you to pay $3893.68 at the end of each year for six years. The first payment is to be made at the end of the first year. The second bank offers equal monthly loan payments of $289.89 for six years, starting at the end of first month. What are the interest rates that the banks are charging? (Enter the effective interest rates as percentages.)

first bank % second bank %

Which alternative is more attractive? (Select the bank with the lower effective interest rate.)

the first bank's offer the second bank's offer

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Moaveni-Engineering Fundamentals(SI) 6/e (Homework)

Current Score : 0 / 33

Due : Sunday, January 27, 2030 12:00 EST

Last Saved : n/a Saving... ()

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