assuming that the only bonds formed in a BCC structure are those between corner atoms and body center poistion (i.e. no corner or body-body atomic bonding), what is the coordination number of an atom sitting at the corner position (assume basis of 1 atom per lattice site)

The rate of power input for this refrigerator is 3.33 kW.

A refrigerator with a COP (Coefficient of Performance) of 3.0 is designed to remove heat from the refrigerated space efficiently. The COP is the ratio of the amount of heat removed from the refrigerated space to the work (power input) done by the refrigerator.

In this case, the heat removal rate is given as 10 kW. To determine the rate of power input, we can use the following formula:

COP = (Heat removal rate) / (Power input)

Rearranging the formula to solve for the power input:

Power input = (Heat removal rate) / COP

By substituting the given values:

Power input = (10 kW) / (3.0)

Power input = 3.33 kW (approx.)

So, the rate of power input for this refrigerator is approximately 3.33 kW. This means that for every 3.33 kW of electrical power supplied to the refrigerator, it is able to remove 10 kW of heat from the refrigerated space. A higher COP indicates a more energy-efficient refrigerator.

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Answer:

Agricultural engineer

Answer:

#include <iostream>

using namespace std;

// named constant to give mnemonic name to "magic number"

const float SqFtPerGal = 350.0f;

// the function main() is always the entry point of the application

int main()

{

float length, width, area, paint; // to hold user values and results

// prompt user for length and width of wall

cout << "Enter length of wall : " << flush;

cin >> length;

cout << "Enter width of wall : " << flush;

cin >> width;

// calculate area and amount of paint needed

area = length * width;

paint = area / SqFtPerGal;

// output results with reasonable text

cout << "You need " << paint << " gallons of paint to cover "

<< area << " square feet of wall." << endl;

// program stops executing when it returns from main(), 0 means O.K.

return 0;

}

Explanation:

The temperature at which the diffusion coefficient have a value of 2.1×10-5 m 2 /s is  -47078 K.

Using the relation;

logD = logDo - Ea/2.303RT

D = diffusion coefficient

Do =  preexponential

Ea = activation energy

R = gas constant

T = temperature

Substituting values;

log(2.1×10-5)= log (1.1×10-5 ) - 253,300/2.303 × 8.314 × T

log(2.1×10-5) -  log (1.1×10-5 ) =  - 253,300/2.303 × 8.314 × T

log[2.1×10-5/1.1×10-5] = - 253,300/2.303 × 8.314 × T

0.281 × (2.303 × 8.314 × T) = - 253,300

T =  - 253,300/2.303 × 0.281 × 8.314

T = -47078 K

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Answer:

  B) leads the voltage

Explanation:

One way to think about it is that the current causes charge to be accumulated on the capacitor, changing its voltage. The current must be non-zero before the voltage can change. Hence current leads voltage.

Answer:

219

Explanation:

Unsigned binary number (base two) 1101 1011 converted to decimal system (base ten) positive integer = 219.

Answer:219

Explanation:128+64+16+8+2+1

The missing term in the presented paragraph is environmental.

In recent years the effects of climate change have been strongly manifested around the world causing:

Therefore, many companies have begun to investigate productive alternatives to reduce their environmental impact. In the case of the car industry, companies have deepened their research on other sources of energy such as:

One of them is Toyota, the Japanese brand that has developed cars that work hybrid, that is, with gasoline and electric power. This will reduce the emissions of CO2 and other harmful gases into the atmosphere.

Therefore, it is possible to infer that the missing term in the paragraph is Environmental.

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If one tries to solve the equation 4.1-21 by the method of separation of variables without first recognizing that the solution can be written as the sum of a steady-state solution and a transient solution, the solution is incorrect.

Separation of Variables method is a method of solving linear and homogeneous partial differential equations that are classified as first-order. It's based on the concept of separating the variables by putting them on the opposite side of the equation sign before integration.

Both of these solutions are crucial in the method of separation of variables. The transient solution is necessary because it captures the behavior of the solution when it is not in a steady state, while the steady-state solution is required because it helps in obtaining the solution by assuming that the solution is in steady state.

If one tries to solve the equation 4.1-21 by the method of separation of variables without first recognizing that the solution can be written as the sum of a steady-state solution and a transient solution, then the solution obtained is incorrect.

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Answer:

1) The bending moment diagram of the shaft is shown in Figure 1. The weakest cross section A is located at the point where the bending moment is maximum.

2) The weakest point on cross section A is located at the point where the bending moment is maximum.

3) The von-Mises stress at the weakest point is given by:

σ = M/I

where M is the bending moment and I is the moment of inertia of the cross section.

4) The factor of safety n is given by:

n = Sy/σ

where Sy is the yield strength of the shaft and σ is the von-Mises stress at the weakest point.

Explanation:

Hope this helps!

Atomic radius of  metal that has the face-centered cubic crystal structure is 0.137 nm, Then volume of its unit cell is V = 3.42×10^(-29) m³

The volume is a measurement of the cell's interior space. The surface area/volume ratio is calculated as follows. This demonstrates the amount of surface area that is available in relation to the size of the cell. A small surface area to volume ratio indicates a large cell.

Volume of unit cell

The atomic radius of aluminum =0.121 nm= 0.121×10⁻⁹ m

The volume of the unit cell in  l^3 and  signifies the length of the side of the unit cell.

Generally  equation for the Volume is mathematically given as:-

V = (4r/√2)³

Therefore

V = (4(0.121×10⁻⁹ m)/√2)³

V = 3.42×10^(-29) m³

so, volume of its unit cell is V = 3.42×10^(-29) m³.

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Answer:

Ashley.... deep drawing

Jack........ blow molding

see picture for the correct answer

Answer:

Four valence electrons

Silicon is having an atomic number of 14 which means It has two electrons in its first shell, eight electrons in the second shell, and four electrons in the third shell.

Incomplete question. The options read;

A. Tech A

B. Tech B

C. Both A and B

D. Neither A nor B.

Answer:

C. Both A and B

Explanation:

Technician B is correct because the technician highlighted valid reasons why draining the compressed air systems is important.

For example, since this system helps to absorb moisture or oil from storage areas they thus need to be drained periodically in other to allow for more absorption space.

Also, the reasons mentioned by Technician A are of course correct because it is generally believed that the application of lubricants such as oil helps to reduce wear and tear.

True is the answer.....

When the process is in control but does not meet specification, it is referred to as a special cause error.

In statistical process control, a process is considered to be in control when it operates within the defined limits and shows only random variations. However, when a process is in control but does not meet the desired specifications, it indicates the presence of a special cause error.

Special cause errors are attributed to specific factors or events that cause the process to deviate from the expected outcome. These errors are typically unpredictable and require investigation and corrective action to bring the process back within the desired specifications.

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Resistors limit the amount of current flow in the circuit. For devices connected to the circuit, some currents can damage their integrity. Therefore, resistors are often used to protect devices connected to the circuit that follow it.

Answer:

You'd need to know things like the weight of the car, the spring constant of the suspension springs.

Explanation:

Driving over the curb slowly does not have much of an "impact" because of the small potential energy it has but to find the force that results from going over the curb at a much higher speed, you would need to know the weight of the car since it directly impact the force that it applies. You also would need to know about the car's suspension, the spring material, how stiff the springs are and their spring constant to calculate the force they absorb.

I hope this answer helps.

Answer:

C . . . . . . . . . . . . . . . . . . . . . .

(a) The column height of mercury in a mercury barometer is 7.32 meters, or 24.0 feet, or 95.2 inches.

(b) The column height of water in a water barometer is 995 meters, or 3268 feet, or 33.9 feet.

(c) A water barometer is not very practical because it would need to be very tall to measure atmospheric pressure.

(d) Ignoring the practicality issue, a mercury barometer would be more precise because mercury is denser than water.

Mercury barometer: 7.32 m, 24 ft, 95.2 in

Water barometer: 995 m, 3268 ft, 33.9 ft

Water barometer not practical because it would be too tall

Mercury barometer more precise because mercury is denser

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a) The diode reverse current at -5V bias cannot be determined without additional information.

b) The diode forward current at +0.5V bias cannot be determined without additional information.

I reverse = I_s * (exp(q * V / (k * T)) - 1)

Where:

I_s is the reverse saturation current

q is the electronic charge (1.6 x 10^-19 C)

V is the applied voltage across the diode

k is the Boltzmann constant (1.38 x 10^-23 J/K)

T is the temperature in Kelvin

First, we need to calculate the reverse saturation current (I_s) using the following equation:

I_s = q * (Den * n_i^2 * A * (1 / T_p) + D_p * n_i^2 * A * (1 / T_n))

Where:

Den and D_p are the diffusivities of electrons and holes, respectively

nib is the intrinsic carrier concentration

A is the cross-sectional area of the diode

Given the values:

Den = un * k * T_p / q

Dip = up * k * T_n / q

nib = sqrt(N_d * N_a * exp(-E_g / (k * T)))

We can calculate I_s and then substitute it into the diode current equation to find the reverse current at -5V bias.

I forward = I_s * (exp(q * V / (n * k * T)) - 1)

Where:

n is the ideality factor (typically around 1 for silicon diodes)

V is the applied voltage across the diode

We can substitute the values of I_s, n, and V into the equation to find the forward current at +0.5V bias.

To provide specific calculations and values, I would need the values of Top, T_n, E_g (energy gap), and the diffusivity values (un and up) for both the n and p regions.

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a) The diode reverse current at -5V bias is approximately 1.056 μA.

b) The diode forward current at +0.5V bias is approximately 3.349 mA.

a) The reverse current of a diode can be calculated using the reverse saturation current formula, which is given by Iₒ = (q * A * (Dn * Nd + Dp * Na) * V) / (Tp * (Dp * Nd + Dn * Na)), where Iₒ is the reverse saturation current, q is the elementary charge (1.6 x 10^-19 C), A is the cross-sectional area of the diode (10^-4 cm^2), Dn and Dp are the diffusion coefficients for electrons and holes respectively, Nd and Na are the donor and acceptor concentrations in the n and p regions respectively, V is the applied voltage (-5V), and Tp is the average lifetime of the minority carriers (10^-7 s in this case). Plugging in the given values, we can calculate the reverse current to be approximately 1.056 μA.

b) The forward current of a diode can be calculated using the forward current equation, which is given by I = Iₒ * (exp(q * V / (n * k * T)) - 1), where I is the forward current, Iₒ is the reverse saturation current, q is the elementary charge (1.6 x 10^-19 C), V is the applied voltage (+0.5V), n is the ideality factor (typically 1 for silicon diodes), k is the Boltzmann constant (1.38 x 10^-23 J/K), and T is the temperature in Kelvin (300K in this case). Plugging in the given values, we can calculate the forward current to be approximately 3.349 mA.

The reverse current of a diode is mainly determined by the diffusion of minority carriers across the p-n junction. As the applied voltage is negative (-5V), it creates a reverse bias, causing the depletion region to widen. The reverse saturation current is directly proportional to the cross-sectional area, donor and acceptor concentrations, and the applied voltage, while inversely proportional to the average lifetime of the minority carriers. By substituting the given values into the reverse saturation current formula, we obtain the reverse current as 1.056 μA.

On the other hand, the forward current in a diode depends on the forward bias applied to it. When a positive voltage (+0.5V) is applied, it reduces the width of the depletion region, allowing majority carriers to flow across the junction. The forward current is exponential in nature and is influenced by the reverse saturation current, applied voltage, ideality factor, Boltzmann constant, and temperature. By using the given values in the forward current equation, we can calculate the forward current as approximately 3.349 mA.

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Answer:

a) \(h_c = 0.1599 W/m^2-K\)

b) \(H_{loss} = 5.02 W\)

c) \(T_s = 302 K\)

d) \(\dot{Q} = 25.125 W\)

Explanation:

Non horizontal pipe diameter, d = 25 cm = 0.25 m

Radius, r = 0.25/2 = 0.125 m

Entry temperature, T₁ = 304 + 273 = 577 K

Exit temperature, T₂ = 284 + 273 = 557 K

Ambient temperature, \(T_a = 25^0 C = 298 K\)

Pipe length, L = 10 m

Area, A = 2πrL

A = 2π * 0.125 * 10

A = 7.855 m²

Mass flow rate,

\(\dot{ m} = 4.5 tons/hr\\\dot{m} = \frac{4.5*1000}{3600} = 1.25 kg/sec\)

Rate of heat transfer,

\(\dot{Q} = \dot{m} c_p ( T_1 - T_2)\\\dot{Q} = 1.25 * 1.005 * (577 - 557)\\\dot{Q} = 25.125 W\)

a) To calculate the convection coefficient relationship for heat transfer by convection:

\(\dot{Q} = h_c A (T_1 - T_2)\\25.125 = h_c * 7.855 * (577 - 557)\\h_c = 0.1599 W/m^2 - K\)

Note that we cannot calculate the heat loss by the pipe to the environment without first calculating the surface temperature of the pipe.

c) The surface temperature of the pipe:

Smear coefficient of the pipe, \(k_c = 0.8\)

\(\dot{Q} = k_c A (T_s - T_a)\\25.125 = 0.8 * 7.855 * (T_s - 298)\\T_s = 302 K\)

b) Heat loss from the pipe to the environment:

\(H_{loss} = h_c A(T_s - T_a)\\H_{loss} = 0.1599 * 7.855( 302 - 298)\\H_{loss} = 5.02 W\)

d) The required fan control power is 25.125 W as calculated earlier above

Answer:

Explanation:

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Answer:

it's not included

Explanation:

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Answer:

si amor

Explanation:

Hoiykñjdnlklbutrk

The cantilever beam is subjected to the point loads P1=3 kN and P2=5 kN. The maximum shear stress acting at section a–a of the cantilevered strut is 0.04 MPa.

The maximum shear stress acting at section a–a of the cantilevered strut, we need to use the formula for shear stress:
Shear stress = VQ/Ib

Where:
V = shear force
Q = first moment of area
I = moment of inertia
b = width of the beam
First, we need to determine the shear force at section a–a. Since the beam is cantilevered, the shear force at any section is equal to the sum of all point loads up to that section.
V = P1 + P2 = 3 kN + 5 kN = 8 kN
Next, we need to find the first moment of area and the moment of inertia at section a–a. Since the beam is rectangular, the formulas are:
Q = bd^2/6
I = bd^3/12
Where:
b = width of the beam
d = height of the beam
Since the beam is cantilevered, the height d is equal to the distance from the neutral axis to the bottom edge of the beam, which is 100 mm.
Q = bd^2/6 = 50 mm x (100 mm)^2/6 = 833,333.33 mm^3
I = bd^3/12 = 50 mm x (100 mm)^3/12 = 416,666,666.67 mm^4
Finally, we can calculate the maximum shear stress at section a–a.
Shear stress = VQ/Ib = 8 kN x 833,333.33 mm^3/(416,666,666.67 mm^4 x 50 mm) = 0.04 MPa
Therefore, the maximum shear stress acting at section a–a of the cantilevered strut is 0.04 MPa.

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The nameplate of a hermetic refrigerant motor-compressor that is designed to operate continuously at currents greater than 156% of the rated-load current is marked with branch-circuit selection current.

A hermetic refrigerant motor-compressor can be defined as a mechanical device that is designed and developed by combining a compressor and motor in a single outer-welded steel shell.

Basically, a hermetic refrigerant motor-compressor is used in the following areas:

According to HSE, the nameplate of a hermetic refrigerant motor-compressor that is designed to operate continuously at currents greater than 156% of the rated-load current is marked with branch-circuit selection current, so as to ensure safety for end users and technicians.

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The hardware that I am using to take this course is a Laptop computer running on windows operating system.

When you send a query, like your previous message, your laptop's operating system breaks it into smaller units called packets. These packets contain parts of your message, destination address, and other metadata.

They're sent over the internet through your Internet Service Provider (ISP), which directs them through routers and switches. These network devices ensure packets take the most efficient path.

They reach the server where I'm hosted. The server processes your query, generates a response, divides it into packets, sends them back through the same process, and your laptop reassembles them to display my answer.

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The correct answer is a. brittle deformation. therefore the correct option is (a) option.

Brittle deformation is when rocks fail as rigid solids. The rocks will break, rather than bend, under these conditions to produce fractures. Brittle deformation occurs along discrete planes in the rock instead of involving the rock body as a whole.Brittle materials include glass, ceramic, graphite, and some alloys with extremely low plasticity, in which cracks can initiate without plastic deformation and can soon evolve into brittle breakage.

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Hi!

Your question is about a multiple position qualification with the axis of the pipe at 45° to the horizontal, and welding shall be done without rotating the pipe. This is a description of welder qualification position 6G. Your answer: D) 6G.

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Answer:

or is the strongest evenger she hulk

Explanation:

?????????

Answer:

Thor!

Explanation:

In Thor: Ragnarok he beat the Hulk in order for Hulk to win thor had to be electrocuted and in Avengers: Endgame Thor is seen holding open the  "Floodgates" and withstanding the radiation from a dying star, also the fact that Thor is a god means that he is all powerful and the rightful heir to the throne to Asgard, plus the fact that he has defeated Loki multiple times a feat that not even the Hulk has done.