Hi, I need a hand please.

Describe how you would use principles of series circuit to analyze a parallel circuit. What formulas used in a series circuit analysis would not apply?

Answer:

- the Young's modulus of the composite in the longitudinal direction  = 87.4GPa.

- The tensile strength of the composite in the longitudinal direction  = 1.26 × 10⁹.

Explanation:

The following parameters or data were given in this particular question/problem;

1. "The fibers are continuous, unidirectionally aligned and 40% by volume."

2." The tensile strength of carbon fibers is 2998 MPa, and the Young's modulus is 214 GPa."

3. " The tensile strength of the epoxy matrix is 100 MPa, and its Young's modulus is 3 GPa."

So, let us delve right into the solution to this question:

[ kindly note that part b. of this problem is the same as the part a. of the problem

Also, in point 2. above 2998MPa = 2.998 =GPa, approximately 3GPa].

40% = 40/100 = 0.4. Therefore, 1 - 0.4 = 0.6. Hence, the Young's modulus of the composite in the longitudinal direction = 3 × 0.6 + 214 × 0.4 =  1.8 + 85.6 = 87.4GPa

The tensile strength of the composite in the longitudinal direction = 100 × 10⁶ × 0.6 + 3 × 10⁹ ₓ 0.4 = 1.26 × 10⁹.

Answer:

(a) The area of the duct exit is 1.67 m²

(b) The air pressure at the exit is 1.195 x 10⁵ N/m²

Explanation:

Given;

inlet area, A₁ = 5 m²

inlet velocity, V₁ = 10 m/s

exit velocity, V₂ = 30 m/s

(a) The area of the duct exit is determined by applying continuity equation;

A₁V₁ = A₂V₂

Where;

A₂ is the area of the duct exit

A₂ = (A₁V₁) / (V₂)

A₂ = (5 x 10) / (30)

A₂ = 1.67 m²

(b) Apply Bernoulli’s equation to determine the pressure at the exit;

[tex]P_1 + \frac{\rho V_1^2}{2} = P_2 + \frac{\rho V_2^2}{2}\\\\P_2 = P_1 + \frac{\rho V_1^2}{2} - \frac{\rho V_2^2}{2}\\\\P_2 = P_1 + \frac{\rho }{2} (V_1^2 - V_2^2)[/tex]

Density of air at 300k = 1.177 kg/m³

[tex]P_2 = P_1 + \frac{\rho }{2} (V_1^2 - V_2^2)\\\\P_2 = 1.2*10^5 \ + \ \frac{1.177}{2} (10^2 - 30^2)\\\\P_2 = 1.2*10^5 \ + \ -470.8\\\\P_2 = 1.195*10^5 \ N/m^2[/tex]

Therefore, the air pressure at the exit is 1.195 x 10⁵ N/m²

The use of solar power, hydropower system and geothermal systems are an upcoming trend in  plumbing or electrical system.

Green design is known to be a kind of product or system that is said to be reserved for those areas of design that are said to be consciously working to make the end product a sustainable and ecologically feasible one

Note that Green design is made in numerous fields such as, in car and plumbing or electrical system to save time and money.

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Using Terzagi's Equation as shown in the attachement;

Qa = 4225 kN/m

As per the given data, the ultimate bearing capacity of the soil is 313 kN/[tex]m^2[/tex]

Bearing capacity is the capacity of soil to support loads applied to the ground in geotechnical engineering.

To determine the ultimate bearing capacity of the soil, we can use the following formula:

q_ult = cN_c + 0.5γ*(BN_q + 0.4N_g*(B - B_f)*N_q)

To find the values of N_c, N_q, and N_g, we can use the following equations:

N_c = [cot(0) + tan(φ)][1 + 0.2(B_f/D)][(N_q/N_c) - 1][(N_q/N_c) - 2]

N_q = [(1 + sin(0))(1 - sin(0))][(N_q/N_c) - 1]

N_g = 0.5*(N_q - 1)*tan^2(φ)

Using the above equations, we can calculate the values of N_c, N_q, and N_g as follows:

N_c = [cot(35°) + tan(35°)][1 + 0.2(3/2)][(2.45/N_c) - 1][(2.45/N_c) - 2] ≈ 11.5

N_q = [(1 + sin(35°))(1 - sin(35°))][(2.45/N_c) - 1] ≈ 10.5

N_g = 0.5*(10.5 - 1)*[tex]tan^2[/tex](35°) ≈ 2.6

Substituting these values into the formula for q_ult, we get:

q_ult = 3011.5 + 0.517.25*(310.5 + 0.42.6*(3 - 3)*10.5) ≈ 313 kN/m^2

Therefore, the ultimate bearing capacity of the soil is approximately 313 kN/m^2.

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Answer:

1218.75

Explanation: If he makes a 25% profit, he needs to sell it for 125% of the computer price. 1.25*975 is 1218.75

Answer:

Potential energy

Explanation:

"Potential energy" is a type of energy an object has when it's at rest or in this case not moving. The car is parked, and the engine is off, that means there is no electrical, kinetic, thermal, or mechanical energy in play since the engine isn't running and the car isn't moving. The radio is off too so that means there is no sound energy or electric energy (again) in play either. You are just parked with the car completely shut off, but you do have the potential to move the car by turning on the engine and start driving, which means potential energy is currently in use.

Hope this helps.

Explanation:

A.

H = Aeσ^4

Using the stefan Boltzmann law

When we differentiate

dH/dT = 4AeσT³

dH/dT = 4(0.15)(0.9)(5.67)(10^-8)(650)³

= 8.4085

Exact error = 8.4085x20

= 168.17

H(650) = 0.15(0.9)(5.67)(10^-8)(650)⁴

= 1366.376watts

B.

Verifying values

H(T+ΔT) = 0.15(0.9)(5.67)(10)^-8(670)⁴

= 1542.468

H(T+ΔT) = 0.15(0.9)(5.67)(10^-8)(630)⁴

= 1205.8104

Error = 1542.468-1205.8104/2

= 168.329

ΔT = 40

H(T+ΔT) = 0.15(0.9)(5.67)(10)^-8(690)⁴

= 1735.05

H(T-ΔT) = 0.15(0.9)(5.67)(10^-8)(610)⁴

= 1735.05-1059.83/2

= 675.22/2

= 337.61

Following are the two sources of data:

IamSugarBee

Answer:

I hope this helps

Explanation:

.... Internal source

.... External source

❎❎❎❎❎❎❎ sorry but that didn't help me that much

The option that identifies why the design in the following scenario represents a green engineering design solution is option C: She is reducing waste through choice of materials.

Anything that lowers waste by starting with less material is considered a waste reduction. Using both sides of a piece of paper, purchasing items in bulk rather than individually packaged, or using ceramic mugs instead of disposable ones are all easy ways to reduce waste.

Therefore, the way that Emily is using tends to lowers greenhouse gas emissions, conserves energy, and generates employment. You may contribute to pollution prevention and environmental protection by lowering the quantity of waste you produce. You also save money, protect natural resources, and reduce the quantity of waste that ends up in landfills.

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Answer:

She is Incorporating existing materials

Explanation:

Answer:

  20.1 cm

Explanation:

The depth is the ratio of volume to area.

  [tex]\dfrac{1.44\times10^8\text{ ac$\cdot$ft}}{8.81913\times10^5\text{ km}^2}=\dfrac{(1.44\times10^8)(4.356\times10^4\text{ ft}^3)(0.3048\text{ m/ft})^3}{(8.81913\times10^5\text{ km}^2)(10^3\text{ m/km})^2}\\\\=\dfrac{1.44\times4.356\times0.3048^3\times10^{12}}{8.81913\times10^{11}}\text{ m}\approx0.2014\text{ m}[/tex]

The depth of water is about 20.1 cm.

_____

Additional comment

An acre-foot is 43,560 cubic feet.

A foot is 0.3048 meters.

A kilometer is 1000 meters.

A centimeter is 0.01 meters.

Answer:

b. A view of a building seen from one side, a flat representation of one façade. This is the most common view used to describe the external appearance of a building.

Explanation:

An elevation is a three-dimensional, orthographic, architectural projection that reveals just a side of the building. It is represented with diagrams and shadows are used to create the effect of a three-dimensional image.

It reveals the position of the building from ground-depth and only the outer parts of the structure are illustrated. Elevations, building plans, and section drawings are always drawn together by the architects.

Answer:

Written in Java

public class MyClass {

   public static void main(String args[]) {

     int [] myarray = new int[10];

     for(int i = 0;i<10;i++)  {

         myarray[i] = i;

     }

     System.out.println("Countdown");

     for(int i = 9;i>=0;i--)  {

        System.out.println(myarray[i]);

     }

   }

}

Explanation:

This line declares the array

     int [] myarray = new int[10];

The following iteration inserts 0 to 9 into the array

     for(int i = 0;i<10;i++)  {

         myarray[i] = i;

     }

This line prints "Countdown"

     System.out.println("Countdown");

The following iteration prints the array in reverse order

     for(int i = 9;i>=0;i--)  {

        System.out.println(myarray[i]);

     }

The option which is not a property of the metal aluminium is; Option B;  is resistant to galvanic corrosion

Aluminum is a non - ferrous metal that is lightweight, durable, malleable and corrosion-resistant (not galvanic) which is widely used for components in the transportation and construction industries. Its's properties includes;

From all the listed properties and explanations, it is clear that the only option among those given that is not a property of aluminum is Option B

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The dark-side traits the leaders possessed that caused them to be ineffective are; Narcissism, Psychopathy and Machiavellianism.

According to Paulhus and williams, they discovered in year 2002 that several personality traits could be related to failures of a leader but they narrowed it down to three which they referred to as the Dark Triad.

These dark side traits are;

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Answer:

Alcoholic hepatitis

Explanation:

Hepatitis is a condition that involves inflammation of the liver. When the liver is inflamed, it swells as a result of tissue injury or infection, which can lead to its damage. Hepatitis can be acute (short-term) or chronic (long-term).

Alcoholic hepatitis is a type of hepatitis caused by excessive consumption of alcohol. It is most likely to occur in people who drink heavily over a long period of time, and rarely occurs in those who drink large amounts of alcohol in a short time.

Answer:

Invitational Workshop

An invitational workshop is what many of us know. It’s what Lucy Calkins has made famous through the Reading and Writing Workshop. In the invitational workshop, the instructor usually hosts a minilesson. This minilesson is intended to meet the needs of the majority of children in the classroom. Afterward, the children are “invited” to employ the skills or strategy for the minilesson during workshop time, where students work independently or in small groups

Explanation:

Answer:

Here are 5 examples:

Explanation:

I hope this helps!

Answer:

you said 20 points

Explanation:

Answer:

i) 125 * 10^9  i

ii) 5.2 ns

iii) 4.8 ns

Explanation:

i) The throughput of the processor for an unpipelined processor

= [tex]\frac{1}{8*10^9} = \frac{10^9}{8 }[/tex]  = 125 * 10^9  instructions per set

ii ) for a 10-stage pipeline

1st instruction :

= 0.2 + 8ns/10

= 0.2 + 0.8 =  1ns

2nd instruction

= 0.2 + 1 + 4

= 5.2 ns

iii). for a 20-stage pipeline

1st instruction

= 0.2 + 8ns/20

= 0.2 + 0.4  = 0.6 ns

2nd instruction

= 0.2 + 0.6 + 4

= 4.8 ns

Answer:

if you are entering the workforce right after high school you are likely to get less pay and work maybe a little harder and also have to learn from the people at the job how to do the job compared to someone who is working in a skilled trade where they know what they are doing, are likely to get a higher pay, and dont need to be taught what to do.

Explanation:

Answer:

true

Explanation:

i took the test and got it right

Answer:

Conflicting goals. Specialised jargon. Unequal responsibilities

Answer:

  82.7 cm or 32.5 in

Explanation:

The required resistance is calculated from the relationship of power, voltage, and resistance. The wire length to give that resistance is calculated from ...

  L = A·R/ρ

The power is the ratio of energy to time:

  P = E/t = (8 J)/(0.25 s) = 32 W

The required resistance is ...

  R = V²/P = (240 V)²/(32 W) = 1800 Ω

__

Then the required wire length is ...

  L = (π/4)(0.00016 in × 2.54 cm/in)²×(1800 Ω)/(2.825×10^-6 Ω·cm)

  L ≈ 82.65 cm

The length of aluminum wire required is about 82.7 cm or 32.5 in.

_____

Additional comment

This wire is roughly 66 AWG, about 1/6 the diameter of a human hair. Its melting current in still air is likely well below the current it carries in this heater. That is, it probably needs to experience significant airflow in order to maintain its integrity.

Answer:

the 4th one

Explanation:

no id you can't drive

Answer:

Once when I was playing a soccer game I tripped over the ball then a heavy girl accidentally ran over my hand and that's how I fractioned my finger  

Explanation: i-

Answer:

A) 4800.6 N

B) 0.2255 mm/min

C) 8.6792 inches

Explanation:

Given data :

gauge Length = 22 cm = 220 mm

cross section diameter/thickness = 1.8 mm

young's modulus ( E ) = 205 GPa

Ultimate tensile strength ( σu ) = 420MPa

Time = 2 mins

A) what force would fracture the specimen

σU = Ff /A

where A (area) = thickness * width ( unknown )  hence we assume a width of 6.35 mm

Ff = σU × A =  420 * 1.8 * 6.35 = 4800.6 N

B) calculate the strain rate

Ultimate tensile strength ( σU ) = εE

ε = σU / E = 420/205000 = 0.00205

also  ε ​​​​​​ =  ΔL / Li = ( Lf - Li) / Li = (Lf / Li) - 1

 therefore  ε ​​​​​​ + 1 = (Lf / Li) = 1 + 0.00205 = 1.00205

 Li = gauge length = 220 mm

Hence :  Lf = 1.00205 × gauge length =  1.00205 * 220 =  220.451 mm

  strain rate

(Lf - Li) / Time = (0.451) / 2 min = 0.2255 mm/min

C) Elongation in inches prior to fracture

ΔL = ε × Li = 0.451 mm

Lf = 220 mm + 0.451 mm = 220.451 mm =  8.6792 inches

The task of the scheduler in an operating system is; Assigning system processes to Run queue.

Schedulers as their name implies are special system software which handle process scheduling in various ways. Their main objective is to select the jobs to be submitted into the system and to decide which process to run accordingly.

On this note, The OS scheduler determines how processes are moved between the ready and run queues which can only have one entry per processor core on the system;

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