Two level sections of 40-m stations with center heights of 1.32 and 1.59 m in cut, base width 15 m, side slopes 1-1/2:1. Part A Compute Ve for the data given Express your answer to five significant figures. Ve m3

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.

The entity declaration includes the name of the entity and a set of port declaration. So declaration that includes the name of ports and direction of flow through the ports by (in, out or inout).

A "black box" is an apparatus, system, or piece of equipment used in research, computer, or engineering that generates meaningful data while concealing any details of its internal operations. Its conclusions' justifications are still "black," or ambiguous. Unable to be understood internally, a black box system can only be understood in terms of its inputs and outputs.

With the traditional "black box test," approach only the stimulus/response behavior will be taken into account when analyzing an open system in order to infer the (unknown) box. In the given diagram, there are no outs for ports B as all are written in before std-logic. Meanwhile, in port a, the same goes but there are 5 inputs and 3 outputs. Not 6 as bun_b_bun_c is treated as one input, not two. The black-box diagrams that are defined by the following vhdl entity are attached below:

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The minimum thickness of copper metallization recommended for a circuit board is 1 mil. This thickness can be adjusted according to the design requirements, but increasing the thickness of the copper metallization may result in increased costs.

The amount of copper metallization deposited on a circuit board is determined by the application and design requirements of the board. Generally, the minimum thickness recommended for copper metallization is 1 mil (0.001 inches). This ensures a reliable electrical connection for the board and helps protect against shorts and corrosion. To provide an additional layer of protection, the thickness of the copper can be increased as needed.

For your process engineer, the recommended minimum thickness of copper metallization should be 1 mil. This is a general guideline that can be adjusted based on the design requirements of the circuit board. However, it is important to note that increasing the thickness of the copper metallization may result in increased costs due to the additional material needed.

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Answer:

See explanation

Explanation:

Truthfully, this answer can vary depending on the CAD program you are choosing to use. Generally, you go to your model tree (this has been on the left hand side of the screen in all of the CAD software I have used) and click the sketch or feature to edit. In some programs this is a left click and in others this is a right click. When the feature is correctly selected a menu should appear with the option to edit feature/sketch/definition/etc. Select this option and you should be able to edit what you wanted to.

An expression for the force per unit-length acting on an edge dislocation when subjected to a shear stress using energy/work principles can be f = τb / (4π).

We can utilise energy/work concepts to develop a formula for the force per unit length acting on an edge dislocation when subjected to a shear stress.

Think about a crystal with an edge dislocation that runs along the y-axis. The dislocation line is parallel to the Burgers vector (b) associated with the dislocation. In the x-direction, the material is under a shear stress ().

The energy per unit length of the dislocation line can be expressed as:

U = Gb² / (4π)

The work done per unit length can be expressed as:

W = τb

So, one can say that:

ΔU = W

Gb² / (4π) = τb

Rearranging the equation, we can solve for the force per unit length (f) acting on the dislocation:

f = τb / (4π)

Thus, this expression gives the force per unit length acting on an edge dislocation when subjected to a shear stress.

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When working with multiple ground glass joints in a set-up, the time that you should apply grease to the joints is if the reaction is said to to be at a heated point that is above 150 oC, or, when the joints required is  still rotated if in use.

Despite being made to fit together relatively nicely, ground glass joints are not completely airtight. In certain circumstances, grease must be applied to each joint to make sure of a good seal (such as when employing lower pressure inside an equipment).

Note that  In ambient lighting, ground or frosted glass is frequently used as a heat- and weather-resistant light diffuser, particularly on the glass covers or enclosures for lamp fixtures and occasionally on incandescent bulbs.

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Since Mr. Smith allowed Mrs. Jones to run a sewer line through Mr. Smith’s backyard so that Mrs. Jones has access to the city sewer system, this is an example of an: A. Easement.

An easement can be defined as a contractual agreement between two or more parties, wherein an individual is granted an access to a real property (land) for a specific purpose and a specific amount of time without possessing it, in exchange for a fee.

This ultimately implies that, an easement refers to the right of a landowner to make use of another person's nearby real property (land) for a specific purpose and a specific amount of time.

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Complete Question:

Mr. Smith has allowed Mrs. Jones to run a sewer line through Mr. Smith’s backyard so that Mrs. Jones has access to the city sewer system. This is an example of a(n):

a. Easement

b. Encumberance

c. Estate for years

d. Title assurance

The Fourier equation for heat transfer through a flat surface is given by:Q = (k * A * ΔT) / d.Using the given values and calculations for the different layers,

you can substitute the appropriate values into the equations to find the required cooling load of the refrigeration unit. where:Q is the rate of heat transfer,k is the thermal conductivity of the material,A is the surface area, ΔT is the temperature difference across the surface, and d is the thickness of the material. To modify the Fourier equation for the multi-layer surface of the cold store, we need to consider the heat transfer through each layer. We can calculate the overall heat transfer coefficient (U) for the multi-layer wall using the following formula:1/U = (1/h1) + (Δx1/k1) + (Δx2/k2) + ... + (1/hn)

where: h1, h2, ... hn are the surface heat transfer coefficients of each layer,Δx1, Δx2, ... are the thicknesses of each layer, and k1, k2, ... are the thermal conductivities of each layer. To determine the required cooling load of the refrigeration unit, we can use the formula:Q = U * A * ΔT where: Q is the rate of heat transfer,U is the overall heat transfer coefficient of the wall, A is the surface area, and ΔT is the temperature difference between the inside and outside of the cold store.Using the given values and calculations for the different layers, you can substitute the appropriate values into the equations to find the required cooling load of the refrigeration unit.

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Answer:

Betbtybrbytntrnyrnrynunjhjhnthnnhtnnthnhtnnhnhrnntnthhnhnhtnthn

Explanation:

here's your answer..

There should be a  6" free conductor left for splicing

Why there should be 6" splicing?

You must leave the junction box with at least six inches of free conductor wiring when running electrical cables from the box to the box for connecting needs.

Actually, 6-8 inches can be left when running the electric cables, additionally even if the grounded conductor is to be spliced in a 12-inch by 12-inch.

Conductor splicing: A splice, which can be finished using either the crimping or soldering method, is the joining of two or more conductors in a way that produces a permanent electrical termination and mechanical link.

Hence we can conclude that 6 inches is fine for the conductor splicing

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Answer:

Hope this helps :)

1. Define/Find the problem.

2. Explore/Research/Collect information.

3. Design the best solution base on your ideas/thoughts.

4. Create the solution.

5. Try the creation, put it to test/work.

6. Make the creation better, modify it.

Also, some additional steps are ...

7. Evaluate the solution, finishing thoughts/ideas.

8. Share your results with other engineers/people, final steps

Answer:

0.02795 m

Explanation:

Neglecting shaft weight Design the shaft using maximum shear stress theory and determine the required diameter

factor of safety = 1.5

length of shaft = 10 meters

material yield strength = 350 MPa

Torque = 500 N.m

The required shaft diameter = 0.02795 m

attached below is a detailed solution of the problem

The  shipping paper for hazard class 2.2 nonflammable compressed gases is for the Number of cylinders of each gas.

They are:

The classes of hazard are often made so that people will recognize them and follow the right steps so as to avoid those hazards.

Therefore,  The  shipping paper for hazard class 2.2 nonflammable compressed gases is for the Number of cylinders of each gas.

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The estimated drag force on the actual golf ball will be equal to the force on the replica.

When the student develops a replica of the golf ball that is 5 times smaller in diameter, the ratio of their diameters is 1:5. Let's denote the diameter of the actual golf ball as D and the diameter of the replica as D/5.

The student sets the wind speed in the wind tunnel to be 5 times larger than the actual speed of the golf ball. Let's denote the actual speed of the golf ball as U and the wind speed in the wind tunnel as 5U.

To estimate the drag force on an object moving through a fluid, we can use the drag equation, which states that the drag force (Fd) is proportional to the square of the velocity (v) and the reference area (A), and also depends on the drag coefficient (Cd):

Fd = 0.5 ˣ Cd * ρ ˣ A ˣ v²

In this case, the golf ball and the replica have the same shape and design, so we can assume that their drag coefficients are similar (Cd_actual ≈ Cd_replica).

The reference area (A) is proportional to the square of the diameter, so A_actual = π ˣ (D/2)² and A_replica = π ˣ ((D/5)/2)².

Now, let's compare the drag forces. Since the drag coefficient is similar and the reference area is proportional to the square of the diameter, the only difference lies in the velocity term.

Therefore, the estimated drag force on the actual golf ball will be equal to the force on the replica.

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The specific values for thickness, strain hardening exponent, and other parameters are required to calculate the limiting drawing ratio, making it impossible to determine without further information.

The limiting drawing ratio (LDR) of a metal is a measure of its ability to be formed into a thin, elongated shape without fracturing. It is determined by the material's anisotropy, which represents the directional variation in mechanical properties.

In this case, the metal has an average normal anisotropy of 6. The LDR can be calculated using the equation:

LDR = (t_f / t_i)ⁿ

where t_f is the final thickness, t_i is the initial thickness, and n is the strain hardening exponent.

However, the specific values for t_f, t_i, and the strain hardening exponent are not provided in the given information. Without these values, it is not possible to determine the exact LDR for the metal.

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The family should accept a minimum of Kshs.42,250,000.00 to avoid incurring a loss.

To obtain the total cost, the expenses for the land, trees and upkeep are summed up and subsequently reduced by 6. 5% using a discount rate.

Hence, it can be seen that a forced acquisition appraisal primarily focuses on three key factors: the land's market value, the expenses involved in replacing the property, and the potential harm caused to the owner's belongings.

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Answer:

In I-Q modulation technique, many symbols or signals with different amplitude and phase are generated. What is the map of all of the symbols called:____.

d. constellation diagram.

Explanation:

A constellation diagram is a representation of all the possible symbols that a system can transmit.  It shows these as a collection of points on the map.  For a signal modulated by a digital modulation scheme, the constellation diagram is used to display both the ideal (reference) signal and the actual measured signal on the same plot.  Modulation simply means the process of converting data into electrical signals so that they are optimized for transmission.

Answer:

Anne is a mechanical engineer.

Explanation:

There are many different types of engineers (mechanical, industrial, electrical, chemical and civil) around the world. When a job involves designing machines, it falls under mechanical engineering. Such job requires a person to be as creative as possible, so he/she can come up with an innovative design that will be reasonable when used.

Designing machines includes spacecrafts. Therefore, Anne is a mechanical engineer working for NASA.

The bending moments for the rectangular solid are:

a) M = 256,000 in-lb

b) M = 227,730 in-lb

a) To calculate the allowable bending moment for a solid rectangular timber beam, we can use the formula below:

M = (allowable stress)*(section modulus)

where M is the allowable bending moment and the section modulus is a measure of the beam's resistance to bending.

For a solid rectangular beam with nominal dimensions of 6 inches by 16 inches, the section modulus can be calculated as:

S = (b*h²) / 6

where b is the width of the beam and h is the height.

Substituting the values, we get:

S = (6*6²) / 6

S = 256 in³

Now, we can calculate the allowable bending moment as:

M = (allowable stress)*(section modulus)

M = 1000 psi*256 in³

M = 256,000 in-lb

Therefore, the allowable bending moment for the timber beam with nominal dimensions is 256,000 in-lb.

(b) For dressed dimensions, we need to adjust the section modulus calculation by subtracting the amount of wood that is removed during the dressing process. Assuming that the dressing process removes 1/8 inch from each side, the width and height of the dressed beam would be 5 3/4 inches and 15 1/2 inches, respectively.

Using these dimensions, the section modulus can be calculated exactly like above, but just with the different numbers:

S = (b*h²) / 6

S = (5.75*15.5²) / 6

S = 227.73 in³

Now replace that in the formula

M = 1000 psi x 227.73 in³

M = 227,730 in-lb

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To think of electric potential difference we are thinking about Voltage. This is option B

The term electric potential difference is used to describe the difference in electric potential between two points in an electrical circuit. The correct answer to the given question is option B, Voltage.

Voltage is the electric potential difference between two points. In other words, voltage is the force that pushes the electric charge through an electrical circuit. The electrical potential difference between two points in an electric circuit is measured in volts, which is abbreviated as V. It is an SI unit of measurement for voltage.

Electric current is the flow of electrons in an electric circuit. It is represented by the symbol I and is measured in amperes (A), which is an SI unit. The current that flows through a circuit is determined by the voltage difference between two points, as well as the resistance of the conductor.

So, the correct answer is B

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The absolute pressure in psia being measured is; 27.228 psia

Formula for absolute Pressure is;

Absolute pressure = Atmospheric pressure + Gauge pressure

P_{abs} = P_{atm} + P_g

We are given;

P_atm = 29.86 (in Hg) = 14.666 psia

Density of mercury at 70 °F; ρ = 13.543 g/cm³

Mercury Manometer reading; h = 25.62 in

Acceleration due to gravity; g = 32.243 ft/s²

Gauge pressure of the mercury = ρgh = 13.543 * 25.62 * 32.243

When we multiply and covert to psia gives; P_g = 12.562 psia

Thus;

P_abs = 14.666 + 12.562

P_abs = 27.228 psia

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Answer:

D would be correct because it maximizes it.

Answer:

Cool.

Explanation:

What is stress ratio ?
The ratio of the lowest to highest level of stress is known as the stress ratio. An increase in the stress ratio causes the rate of corrosion fatigue crack propagation to rise.
The length of the floating column, the thickness of the slab, the intensity of the load, the improvement ratio, and other elements all have an impact on the stress ratio. The ratio of a column's length to its diameter is called a column length ratio.
Step-by-step solution:

Tensile strength = 1800mpa

Minimum stress = 0mpa

Maximum stress = 1200mpa

Stress ratio = Minimum stress / Maximum stress. = 0/1200 = 0

Therefore, Stress ratio = 0.

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Answer: the stress is 384 pounds per square inch.

Step-by-step explanation:

Let S represent the stress in the material of the pipe.

Let P represent internal pressure of the pipe.

Let D represent internal diameter of the pipe.

Let T represent the thickness of the pipe.

The stress in the material of a pipe subject to internal pressure varies jointly with the internal pressure and the internal diameter of the pipe and inversely with the thickness of the pipe. Introducing a constant of proportionality, k, the expression becomes

S = kPD/T

The stress is 100 pounds per square inch when the diameter is 5 inches, the thickness is 0.75 inch, and the internal pressure is 25 pounds per square inch. It means that

100 = (k × 25 × 5)/0.75

125k = 100 × 0.75 = 75

k = 75/125 = 0.6

The equation representing the relationship becomes

S = 0.6PD/T

If the internal pressure is 40 pounds per square inch, the diameter is 8 inches and the thickness is 0.50 inch, then the stress would be

S = (0.6 × 40 × 8)/0.5

S = 384

Focus primarily on highly precise specifics of what Cornell offers and how it matches with your interests and values. You can regard this as a "Why us?" essay with some optional "Why major" spice.

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Answer:

look online

Explanation:

The purification of a wide range of materials involves the use of distillation, a significant commercial procedure.

The purification of a wide range of materials involves the use of distillation, a significant commercial procedure. However, it would definitely be helpful to clarify the terms that describe the procedure and related qualities before we start a discussion of distillation.

Although you may be familiar with several of these terms, you might not be aware of their precise definitions. Let's start by outlining the procedure for changing a material from its condensed phase to its gas phase. This process is known as sublimation for solids and vaporization for liquids. Both procedures call for heat.

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Answer:

Biochemistry

Explanation:

Hope this helps :)

Answer:

Biochemistry

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