A cylindrical specimen of a brass alloy having a length of 60 mm (2.36 in.) must elongate only 10.8 mm (0.425 in.) when a tensile load of 50,000 N (11,240 lbf ) is applied. Under these circumstances what must be a radius of the specimen

Answer:

note:

solution is attached in word form due to error in mathematical equation. furthermore i also attach Screenshot of solution in word due to different version of MS Office please find the attachment

The voltage of the source can be determined by dividing the total energy transferred (sum of the paddle-wheel work and heat required to evaporate water) by the product of current and time. The process will be seen as a horizontal line on a piston-cylinder diagram

The heat transferred to the water can be calculated from the energy supplied by the electrical source and the work done by the paddle wheel. Since power is the energy transferred per unit time, we can use the equation Power = Voltage x Current. We know that the current is 8 A and the energy transferred is the sum of the work done by the paddle wheel and the heat required to evaporate half of the water, which is 45 minutes (converted to seconds) times the power. Solving for voltage we get:

Voltage = (Energy transferred) / (Current x Time)

In terms of a piston-cylinder diagram, the process will appear as a horizontal line since the pressure is constant. The line will move upwards as heat is added and some of the water is turned into steam.

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Answer:

use this to help www.code.org

Explanation:

this helped me alot

Answer:

11.65 minutes.

Explanation:

See the attached picture for detailed explanation.

Answer:

11.65 min

Explanation:

Hydrogen sulfide is very poisonous and as a result, it is essential to reduce the concentration of the gas to the lowest possible value to minimize its effects. The time taken to reduce the amount of hydrogen sulfide in the system to the allowable limit can be estimated as shown below:

t = (V/Q)*ln(Ci/Co) = (160/10)*ln(14/29) = 16*0.728 = 11.65  min

Answer:

m' = 4948.38 kg/s

Explanation:

For a case of 100% efficiency, the power produced must be equal to the rate of potential energy conversion

GIVEN THAT

Power = 100 MW

rate of Potential energy = (m')*g*h

100*10^6 = (m')*9.81*206

m' = 4948.38 kg/s

Answer:

49.484 m³ / s

Explanation:

Volume flow rate = Power in W / (efficiency × density × height × acceleration due to gravity)

Volume flow rate = 100 × 10⁶ / ( 1 × 1000 kg/m³ × 206 m × 9.81 m/s²)

V = 49.484 m³ / s

Answer:

A. 0.020

B. 0.018

Explanation: check the attached file

Answer:

a. n=0.020  b. n=0.018

Explanation:

a.

Case 1: To line the sides only

n=(Σn₁¹°⁵P₁)^2/3/P^2/3

n = equivalent roughness

n₁=corresponding roughness coefficients

P=length

At the bed: n₁=0.025 and P₁=5m

At the sides: n₂=0.012 and P₂= 2*1.1*√1+1.5²=2.2*1.8=3.96m

P = P₁+P₂=8.96m

Equivalent roughness, n = [5*(0.025)^1.5+3.96*(0.012)^1.5]^2/3/(8.96)^2/3

n= [(5*0.00395)+(3.96*0.0013)]^2/3/4.317

n=0.0249^2/3/4.317

n=0.0842/4.317

n=0.0195

n=0.020

b.

Case 2: To line the bed only

P₁=5m   n₁=0.012

P₂=3.96 n₂=0.025

P=8.96

Equivalent roughness n= [5*(0.012)^1.5+3.96*(0.025)^1.5]^2/3/(8.96)^2/3

n=[(5*0.0013)+(3.96*0.00395)]^2/3/4.317

n=0.0221^2/3/4.317

n=0.078/4.317

n=0.018

Based on the available information, the the estimated towing power required is:

(a) For the parallel orientation: 655 kW

(b) For the normal orientation: 4,116.75 kW

Given:

- Diameter of the cylinder: 1.5 m

- Length of the cylinder: 22 m

- Towing speed (U): 5 m/s

- Water temperature: 20°C

(a) Cylinder parallel to the tow direction:

Step 1: Calculate the drag force for the parallel orientation.

The drag force for a submerged cylinder in parallel orientation is given by the formula:

F_D = 0.5 × ρ × C_D × A × U^2

Where:

- ρ is the density of fresh water at 20°C, which is approximately 998 kg/m³.

- C_D is the drag coefficient for a cylinder in parallel orientation, which is approximately 0.82.

- A is the cross-sectional area of the cylinder, which is π × D × L = π × 1.5 m × 22 m = 103.87 m².

Calculating the drag force:

F_D = 0.5 × 998 kg/m³ × 0.82 × 103.87 m² × (5 m/s)² = 131,000 N

Step 2: Calculate the towing power for the parallel orientation.

Towing power = Drag force × Towing speed

Towing power = 131,000 N × 5 m/s = 655,000 W = 655 kW

(b) Cylinder normal to the tow direction:

Step 3: Calculate the drag force for the normal orientation.

The drag force for a submerged cylinder in normal orientation is given by the formula:

F_D = 0.5 × ρ × C_D × A × U^2

Where:

- C_D is the drag coefficient for a cylinder in normal orientation, which is approximately 1.2.

- A is the cross-sectional area of the cylinder, which is π × D × D/4 = π × 1.5 m × 1.5 m/4 = 1.77 m².

Calculating the drag force:

F_D = 0.5 × 998 kg/m³ × 1.2 × 1.77 m² × (5 m/s)² = 823,350 N

Step 4: Calculate the towing power for the normal orientation.

Towing power = Drag force × Towing speed

Towing power = 823,350 N × 5 m/s = 4,116,750 W = 4,116.75 kW

Therefore, the estimated towing power required is:

(a) For the parallel orientation: 655 kW

(b) For the normal orientation: 4,116.75 kW

Answer:

[tex]q_{out} = 9.25\,\frac{kJ}{kg}[/tex]

Explanation:

First, it is required to find the absolute humidity of air at initial state:

[tex]\omega = \frac{0.622\cdot \phi \cdot P_{g}}{P-\phi \cdot P_{g}}[/tex]

The saturation pressure at [tex]T = 27^{\textdegree}C[/tex] is:

[tex]P_{g} = 3.601\,kPa[/tex]

Then,

[tex]\omega = \frac{0.622\cdot (0.5)\cdot (3.601\,kPa)}{101.325\,kPa-(0.5)\cdot (3.601\,kPa)}[/tex]

[tex]\omega = 0.0113\,\frac{kg\,H_{2}O}{kg\,air}[/tex]

A simple cooling process implies a cooling process with constant absolute humidity. The specific entalphies for humid air are:

Initial state:

[tex]h_{1} = (1.005\,\frac{kJ}{kg\cdot ^{\textdegree}C})\cdot (27^{\textdegree}C)+(0.0113)\cdot (2551.96\,\frac{kJ}{kg} )[/tex]

[tex]h_{1} = 55.972\,\frac{kJ}{kg}[/tex]

Final state:

[tex]h_{2} = (1.005\,\frac{kJ}{kg\cdot ^{\textdegree}C})\cdot (18^{\textdegree}C)+(0.0113)\cdot (2533.76\,\frac{kJ}{kg} )[/tex]

[tex]h_{2} = 46.722\,\frac{kJ}{kg}[/tex]

The specific energy that is removed is:

[tex]q_{out}= h_{1} - h_{2}[/tex]

[tex]q_{out} = 9.25\,\frac{kJ}{kg}[/tex]

1225

Explanation:

This segment helps initialize sum as 0. The for loop is used to increment with every execution and it is added to the sum. The loop runs 49 times and every time the count is added to the sum. In short it is the sum of first 49 natural numbers i.e 1+2+3+......+49.

Answer: c. The VW engineers involved were ethically obligated to hold paramount the health, welfare and safety of the public even if their supervisors directed them to implement software and hardware that enabled cheating on the emissions testing software.

Explanation: The National Society of professional Engineers, NSPE define the code of ethics which must guide engineers in their duty. These codes act as principles of personal conduct, towards the public and their employers.  

One of the areas covered by these codes is overriding importance of the safety and health of the public to any other factor. In addition, engineers are to avoid deception and maintain the reputation of their profession. These cannot be sacrificed for the financial gain of their employers or explained away by saying they are following the direction of their employers. While they have certain responsibilities to their employers, the health welfare and safety of the public is more important.  

To calculate the required cross-sectional area of copper wires needed to connect the DC supply source to the mine lights with less than 5% power loss, calculate the permissible power loss, and then use the relationship between power loss, current, and wire resistance. Considering the resistivity of copper and the round trip length of the wire, the formula A = ρL/(δP/I²) determines the necessary wire thickness.

To determine the required cross-sectional area of copper wires for the lighting equipment, we need to ensure the power loss (δP) is no more than 5% of the lights' power usage (P), which is 5 kW (5000 W). As the power loss in wires is given by δP = I²R, where I is the current and R is the resistance of the wire, we must first calculate the current using P = IV, giving I = P/V = 5000W/120V = 41.67 A. The power loss allowed is thus 5% of 5000 W, equating to 250 W. Given δP, we can find R using δP = I²R, which gives R = δP/I².

The resistance of a copper wire is also given by R = ρL/A, where ρ is the resistivity of copper (1.68 x 10^-8 Ωm), L is the length of the wire (200 meters round trip), and A is the cross-sectional area we need to find. Equating the two expressions for R and solving for A gives A = ρL/(δP/I²). Substituting the given and calculated values yields the required cross-sectional area. Finally, as resistance depends on the entire length of the circuit, remember to double the distance to account for both the outgoing and return paths.

Answer:

The solution to the given problem is provided below.

Explanation:

a.) myBike.height = 26;                                                 Not Legal statement

b.) myBike.model = “Cyclone”:                                    Legal statement

c.) myBike.wheels = 3;                                                  Legal statement

d.) myBike.model = 108;                                               Not legal statement

e.) Bicycle.height = 24;                                                  Not Legal statement

f.) Bicycle.model = “Hurricane”;                                 Not legal statement

g.) Bicycle.int = 3;                                                           Not Legal statement

h.) Bicycle.model = 108;                                                Not Legal Statement

i.) Bicycle.wheels = 2;                                                    Legal Statement

j.) Bicycle yourBike = myBike;                                      Legal Statement

Answer:

The answer is True.

Explanation:

SED is a command in UNIX for stream editors that parses and transforms text, using a simple, compact programming language. So the answer is TRUE that sed is a multipurpose tool that combines the work of several filters and performs noninteractive operations on a data stream. sed has a host of features that allow you ti select lines and run instructions on them.

Answer:

The purpose of the algorithm is to print the least digit among a total of 15 digita

Explanation:

input somenum

Repeat the following steps for 14 times

input variable1

if variable1 < somenum then

somenum = variable1

print somenum

On line 1, the algorithm takes an input through variable1

An iteration is started on line 2 and ends on line 6

Line 3,4,5 re performed repeatedly;

On line 3, the algorithm accepts another input through somenum and it keep accepting it till the end of the iteration.

On line 4, the algorithm tests if variable1 is lesser than somenum.

If yes, line 5 is executed and the value of variable1 is assigned to somenum

Else, line 5 is skipped; the iteration moves to line 3 as long as the condition is still valid.

At the end of the iteration, the least value stored in somenum is printed through

Answer:

Heat lost from the cylindrical pipe is given by the formula,

[tex]d Q= \frac{2 \pi K L (T_{1} - T_{2} )}{log_{e}(\frac{R_{2} }{R_{1} } ) }[/tex]

Temperature distribution inside the cylinder is given by,

[tex]\frac{T - T_{1} }{T_{2} - T_{1} } = \frac{log_{e} \frac{R}{R_{1} }}{log_{e} \frac{R_{2}}{R_{1} }}[/tex]    

Explanation:

Inner radius = [tex]R_{1}[/tex]  

Outer radius = [tex]R_{2}[/tex]

Constant thermal conductivity = K

Inner temperature = [tex]T_{1}[/tex]

Outer temperature = [tex]T_{2}[/tex]

Length of the pipe = L

Heat lost from the cylindrical pipe is given by the formula,

[tex]d Q= \frac{2 \pi K L (T_{1} - T_{2} )}{log_{e}(\frac{R_{2} }{R_{1} } ) }[/tex]------------ (1)

Temperature distribution inside the cylinder is given by,

[tex]\frac{T - T_{1} }{T_{2} - T_{1} } = \frac{log_{e} \frac{R}{R_{1} }}{log_{e} \frac{R_{2}}{R_{1} }}[/tex]     ------------ (2)

Answer:

it will take for the casting to solidify 2.55 min

Explanation:

given data

mold constant = 4 min/cm²

length = 35 cm

width = 10 cm

thickness = 15 mm

solution

we use here Chvorinov's Rule that is

Chvorinov's Rule = mold constant × [tex](\frac{V}{A})^{1.9}[/tex]   ..............1

put here value

Chvorinov's Rule = 4 × [tex](\frac{600}{760})^{1.9}[/tex]  

Chvorinov's Rule = 2.55 min/in

so heer unit flow become [tex]min/in^{1.9}[/tex]  

Answer:

The answer to this question is attached fully with the explanation.

Answer:

B

Explanation:

Torsion is application of torque to a shaft to turn it about its longitudinal axis. When torque is applied to a shaft the circle remains unchanged in a circular state, its cross section does not warp but remains flat with a straight radial lines but its longitudinal lines changes into an helix intersecting the circular shaft

Answer:

2.46 * 10⁵ W/m³

Explanation:

See attached pictures for detailed explanation.

Answer:

[tex]q^.=2.46*10^5W/m^3[/tex]

Explanation:

[tex]Given\\k=2.5W/m\\h_{1} =75(left)\\h_{2} =50(right)\\T_{1} =50^oC\\T_{2} =30^oC[/tex]

so

[tex]T=-\frac{q^.x^2}{2k} +c_{1}x+ c_{2} \\T=T_{1} \\at \\x=-0.04\\T=T_{2} \\at\\x=+0.04[/tex]

[tex]dT/dx=-q^.x/k+c_{1} \\T=T_{max} =300\\at\\x=c_{1} \frac{k}{q^.} (1)[/tex]

[tex]h_{1}(T_{1infinity} -T_{1} )=-k\frac{dT}{dx} |_{x=0.04} (2)\\-k\frac{dT}{dx} |_{x=0.04} =h_{2} (T_{2}-T_{2infinity} (3)[/tex]

[tex]300=-\frac{q^.}{2k} [c_{1} \frac{k}{q} ]^2+c_{1} [c_{1} \frac{k}{q} ]+c_{2} (1)[/tex]

[tex]75[50+\frac{q^2}{2k} (0.04)^2+c_{1} (0.04)-c_{2} ]=-k[\frac{+q^2(0.04)}{2k} ](2)[/tex]

[tex]-k[\frac{-q^.(0.04)}{2k} ]=50[\frac{-q^.(0.04)}{2k} +c_{1} (0.04)+c_{2} -30](3)[/tex]

solving above 3 equations for 3 unknowns c1,c2,q

we get [tex]q^.=2.46*10^5W/m^3[/tex]

Answer:

The answer is in the attachment.

Explanation:

Answer:

Please find attached file for complete answer solution and explanation of same question.

Explanation:

Answer:

See step to step explanations for answer.

Explanation:

This is the expression to check if credits is less than 0 assuming variable name is credits:

if(credits<0)

{

credits = 0;

}

Q 4.69:

this is the expression checking the name is Swordfish or not

if(name=="Swordfish")

{

cout<<"We have a match";

}

Q 4.67

This is the expression to check the character assuming that character is ch

if(ch>='1' && ch<='9')

{

cout<<"Digit detected";

}

Q 4.59:

This is the statement to check if the number is between 0 and 500 inclusive . Assuming the variable is n

if(n>=0 && n<=500)

{

cout<<"The number is valid";

}

To address the programming question about conditional expressions, a ternary operator can be used to set the variable 'credits' to 0 if its value is less than 0, and otherwise keep the current value.

The student's question pertains to the use of a conditional expression in a programming context. A conditional expression evaluates a condition and based on its truth value, executes one of two expressions. The statement required should check if the credits variable is less than 0 and if so, assign the value 0 to credits; otherwise, it should leave the value of credits as is.

An example in a generic programming language would be:

This line of code is known as a ternary operator or conditional assignment. It reads as 'Set credits to 0 if credits is less than 0; otherwise, keep the value of credits.'

Answer:

5.24m

Explanation:

Data given

force, F= 11,100N

safety factor,N=2

yield strength, =1030MPa

To determine the minimum diameter, we first determine the working strength which is expressed as

[tex]working strength=\frac{yield strength}{safty factor}\\ Working strength =1030/2=515MPa\\[/tex]

Since also the working strength is define as the ration of the force to the area, we have

[tex]515=\frac{11100}{A}\\ A=21.55m^{2}[/tex]

hence the required diameter is given as

[tex]A=\pi d^2/4\\d=\sqrt{\frac{4*21.55 }{\pi }} \\d=5.24m[/tex]

Answer:

note:

solution is attached in word form due to error in mathematical equation. furthermore i also attach Screenshot of solution in word due to different version of MS Office please find the attachment

Answer:

[tex]W= 3.22 \mu m[/tex]

Explanation:

the transistor In saturation drain current region is given by:

[tex]i_D}=K_a(V_{GS}-V_{IN})^2[/tex]

Making [tex]K_a[/tex] the subject of the formula; we have:

[tex]K_a=\frac {i_D} {(V_{GS} - V_{IN})^2}[/tex]

where;

[tex]i_D = 1.2m[/tex]

[tex]V_{GS}= 3.0V[/tex]

[tex]V_{TN} = 0.6 V[/tex]

[tex]K_a=\frac {1.2m} {(3.0 - 0.6)^2}[/tex]

[tex]K_a = 208.3 \mu A/V^2[/tex]

Also;

[tex]k'_n}=\frac{\mu n (\frac{cm^2}{V-s} ) \epsilon _{ox}(\frac{F}{cm} ) }{t_{ox}(cm)}[/tex]

where:

[tex]\mu n (\frac{cm^2}{V-s} ) = 600[/tex]

[tex]\epsilon _{ox}=3.9*8.85*10^{-14}[/tex]

[tex]{t_{ox}(cm)=200*10^{-8}[/tex]

substituting our values; we have:

[tex]k'_n}=\frac{(600)(3.988.85*10^{-14})}{(200*10^{-8})}[/tex]

[tex]k'_n}=103.545 \mu A/V^2[/tex]

Finally, the width can be calculated by using the formula:

[tex]W= \frac{2LK_n}{k'n}[/tex]

where;

L = [tex]0.8 \mu m[/tex]

[tex]W= \frac{2*0.8 \mu m *208.3 \mu}{103.545 \mu}[/tex]

[tex]W= 3.22 \mu m[/tex]

Answer:

The most common approach to accessing an array is to use a for loop:

var mammals = new Array("cat","dog","human","whale","seal");

var animalString = "";

for (var i = 0; i < mammals. length; i++) {

animalString += mammals[i] + " ";

}

alert(animalString);

Discussion

A for loop can be used to access every element of an array. The array begins at zero, and the array property length is used to set the loop end.

Though support for both indexOf and lastIndexOf has existed in browsers for some time, it’s only been formalized with the release of ECMAScript 5. Both methods take a search value, which is then compared to every element in the array. If the value is found, both return an index representing the array element. If the value is not found, –1 is returned. The indexOf method returns the first one found, the lastIndexOf returns the last one found:

var animals = new Array("dog","cat","seal","walrus","lion", "cat");

alert(animals.indexOf("cat")); // prints 1

alert(animals.lastIndexOf("cat")); // prints 5

Both methods can take a starting index, setting where the search is going to start:

var animals = new Array("dog","cat","seal","walrus","lion", "cat");

alert(animals.indexOf("cat",2)); // prints 5

alert(animals.lastIndexOf("cat",4)); /

Answer:

animals = ["Dog", "Lion", "Goat", "Zebra", "Cat"]

           for animal in animals:

                       print(animal)

x = animals.insert(5, "Lizard")

y = animals.insert(6, "Bat")

z = sorted(animals)

print(z)

Explanation:

The question can be solved using various back-end coding language like python, java, JavaScript etc. But I will be writing the code with python.

The first question said we should create an array or list of five animals.

animals = ["Dog", "Lion", "Goat", "Zebra", "Cat"]  → I created the five animals in a list and stored them in the variable animals.

for animal in animals:  I used a for loop to iterate through the list print(animal)  I used print statement to display the values stored in the array or list.

x = animals.insert(5, "Lizard")  I added an animal, lizard to the end of the array

y = animals.insert(6, "Bat")  I added another animal , Bat to the end of the array.

z = sorted(animals)  I sorted the array according to alphabetical number.

print(z) I displayed the sorted array .

Answer:

59.78 m

Explanation:

Data:

PI station = 250 will allow a speed of 65 mph

The maximum superelevation will be  = 0.08 ft/ft

Central angle of the curve                    =  35 degrees

A figure will be used to present the information. This gives the height of 59.78 m as the maximum elevation for the safe speed of the vehicle.

Answer:

1.757 kg/s

Explanation:

According to the First Law of Thermodynamics, the physical model for a turbine working at steady state is:

[tex]-\dot Q_{out} - \dot W_{out} + \dot m \cdot (h_{in}-h_{out})=0[/tex]

The flow rate of steam is:

[tex]\dot m = \frac{\dot Q_{out}+\dot W_{out}}{h_{in}-h_{out}}[/tex]

Water enters and exits as superheated steam. After looking for useful data in a property table for superheated steam, specific enthalpies at inlet and outlet are presented below:

[tex]h_{in} = 3451.7 \frac{kJ}{kg} \\h_{out} = 2967.9 \frac{kJ}{kg} \\[/tex]

Finally, the flow rate is calculated:

[tex]\dot m = \frac{100 kW + 750 kW}{3451.7 \frac{kJ}{kg} - 2967.9 \frac{kJ}{kg}}\\\dot m =1.757 \frac{kg}{s}[/tex]

Answer: Let us use the pickled file - DeckOfCardsList.dat.

Explanation: So that our possible outcome becomes

7♥, A♦, Q♠, 4♣, 8♠, 8♥, K♠, 2♦, 10♦, 9♦, K♥, Q♦, Q♣

HPC (High Point Count) = 16  

Answer:

Please find attached file for complete answer.

Explanation:

Answer:

d = 0.868 in

Explanation:

note:

solution is attached due to error in mathematical equation. please find the attachment

This question involves solving for the diameter d at the portion BC of a steel rod under axial load. It involves utilizing Hooke's Law and expressing cross-sectional area in terms of diameter. The final calculation will depend on the length of the portion BC.

The question appears to involve the concept of stress and strain in the area of mechanical engineering. In this problem, we have a steel rod ABC, where end C, experiencing a single axial load P = 15 kips, deflections to 0.05 inches. We are tasked to find the diameter, denoted as d, of portion BC.

To solve this, we could utilize Hooke's Law of elasticity that connects stress, strain, and the Young's modulus (E). The formula is represented as δ = PL/AE. In the equation, P is the load, L is the length, A is the cross-sectional area and E is Young's modulus. We are given P, E, and δ (deflection), leaving the cross-sectional area and length as variables to be found. Since we are looking for the diameter (d), we need to express the area (A) in terms of the diameter using the formula A = πd²/4.

The length L is dependent on the specific conditions of the problem and are not given directly. Depending on the conditions, L might need to be solved differently. First, solve the equation for diameter, afterwards, plug the known values in and evaluate, giving the diameter in inches of the steel rod at portion BC.

https://brainly.com/question/36010339

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