As one of the engineers involved in designing the car bumper, you are asked by your manager to prepare notes on the material and process to involve in producing the car bumper. Following are the lists of items that need to be included in the notes.
a. Distinguish how the reinforcements of composite used in producing the car bumper are classified.
b. Appraise in detail about the natural fiber used in polymer composite for producing the car bumper.
c. Propose and justify the suitable manufacturing methods for producing the car bumper.
d. Appraise how the surface roughness plays its role in relating to the functionality of the car bumper produced.

Based on the information provided, we can assume that the Z register is not updated through any of the microoperations in the RSC's microcode specification. However, we do not have enough information to determine under what conditions the Z register would be updated.

In general, microcode specifications define the microoperations that are performed by the processor's control unit to execute machine instructions. These microoperations can include operations such as register transfers, arithmetic and logic operations, and conditional branching.

It is possible that the Z register is updated through a microoperation that is not explicitly listed in the RSC's microcode specification. Alternatively, the Z register may only be updated under specific conditions that are not mentioned in the specification.

To determine under what conditions the Z register is updated, we would need to consult the processor's architecture manual or datasheet, which should provide a detailed description of the processor's register set and instruction set.

As for whether the Z register would be set to zero or one when it is updated, this would depend on the specific instruction being executed and the logic implemented in the microcode. Generally, the Z register is used to store the result of a comparison or arithmetic operation and is set to zero if the result is equal to zero and set to one if the result is not equal to zero. However, this may vary depending on the specific implementation.

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Answer: There should be Five of em.

Answer:

There should be five.

When three principal stresses are given, the equivalent stress at the point can be calculated using the following formula:σe = [(σ1-σ2)² + (σ2-σ3)² + (σ3-σ1)²]^(1/2)where,σ1, σ2, and σ3 are the principal stresses.

In this case, the given principal stresses are 10MPa, 2MPa, and -4MPa. Therefore,σ1

\(= 10MPaσ2 = 2MPaσ3 = -4MPaSubstituting these values in the above formula, we get:σe = [(10-2)² + (2-(-4))² + (-4-10)²]^(1/2)= [(8)² + (6)² + (14)²]^(1/2)= [64 + 36 + 196]^(1/2)= [296]^(1/2)≈ 17.2\) MPaTherefore, the equivalent stress at the point is approximately 17.2 MPa.

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Answer:

True

Explanation:

During gait the body of a living organism is gaining speed: a. during terminal stance.

Physical fitness can be defined as a measure of both the physical and mental soundness (wellness) or ability of an individual to engage in physical exercises, sports, work and other day-to-day activities.

For instance, one of the ways in which an individual can model good physical fitness to other individuals in their neighborhood is by:

Gait can be defined as the way and manner in which an animal or individual walks or runs, thereby affecting and altering the shape of the body.

In this context, we can infer and logically deduce that during gait the body of a living organism is gaining speed, especially during terminal stance.

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Answer:

True

Explanation:

Because a object is a smart thing to use doing them problem

Answer:

  A

Explanation:

An open circuit has infinite resistance, not 0. A circuit with continuity usually measures a few ohms or less, depending on the length and gauge of the wire and the condition of the connections. Often, on a general-purpose ohmmeter, the reading is very near 0 ohms.

Technician A is correct.

Skilled coders possess valuable skills that extend beyond coding itself, opening up various career opportunities in related fields.

Here are a few examples:

1. Software Engineering: Skilled coders can pursue roles as software engineers, focusing on designing, developing, and maintaining software systems. They can work on large-scale software projects, architecture design, and system integration.

2. Data Science and Analytics: Coders can enter the field of data science, leveraging their programming skills to extract insights from large datasets. They can work on tasks such as data analysis, machine learning, statistical modeling, and data visualization.

3. Cybersecurity: Skilled coders can transition into cybersecurity roles, where they can utilize their understanding of programming languages and system vulnerabilities to identify and address security threats, conduct risk assessments, and implement security measures.

4. DevOps: Coders can specialize in DevOps (Development and Operations), focusing on streamlining software development processes, automating deployment, and managing infrastructure. They can work on continuous integration/continuous delivery (CI/CD), configuration management, and cloud infrastructure.

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By 2020, 50 billion devices are expected to be connected to the internet worldwide. Option a is correct.

The Internet of Things (IoT) is a concept that refers to the connection of everyday items to the internet and to one another. It is a vast system of devices, computers, and other items with built-in sensors that collect and share data with one another.

These sensors communicate with one another, exchanging data with one another and with us, to create new digital experiences. In simpler words, IoT is a network of connected devices that communicate with one another to perform everyday tasks.

The goal of IoT is to make everyday items more intelligent by connecting them to the internet and allowing them to share data. It is anticipated that by 2020, 50 billion devices will be connected to the internet worldwide.

Therefore, a is correct.

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Answer:

Use this PDF file it should help you calculate total photon flux incident on the photodiode.

Explanation:

It's a file on lecture notes that help people learn about engineering and maybe in the lecture notes it might have information about how to calculate total photon flux incident on the photodiode

When designing a new material for use in an airplane body, the material should have the following properties:

High strength-to-weight ratio: The material should have high strength-to-weight ratio because the weight of the airplane body should be reduced so that it can fly easily. High stiffness: The material should have high stiffness because it should resist the forces acting on it. Low density: The material should have low density because the weight of the airplane body should be reduced so that it can fly easily. Corrosion-resistant: The material should be corrosion-resistant because it should resist corrosion by exposure to the atmosphere. High fatigue strength: The material should have high fatigue strength because it should resist the forces acting on it.

Fatigue strength is the maximum stress that can be applied to a material without causing it to break. The above properties are crucial when designing a new material for use in an airplane body.

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The average power dissipated by a circuit can be determined by finding the average value of the instantaneous power over a complete cycle of the input waveform. Given vi(t) = 200 sin(5000t), the average power can be calculated using the formula Pavg = (Vrms^2)/R, where Vrms is the root mean square value of the voltage and R is the resistance in the circuit.

To determine the average power dissipated by the circuit, we need to find the average value of the instantaneous power over a complete cycle of the input waveform. The instantaneous power is given by the product of the instantaneous voltage (vi(t)) and the instantaneous current (i(t)) flowing through the circuit. Since the voltage waveform is vi(t) = 200 sin(5000t), the current waveform will depend on the circuit elements and their relationship with the voltage.

To calculate the average power, we use the formula Pavg = (Vrms^2)/R, where Vrms is the root mean square value of the voltage and R is the resistance in the circuit. In this case, since the voltage waveform is sinusoidal, we can determine the Vrms value as the peak value (200) divided by the square root of 2 (approximately 1.414).

However, to calculate the exact average power, we need additional information about the circuit configuration, such as the presence of resistors, capacitors, or inductors, and their values. With this information, we can determine the current waveform and calculate the average power dissipated by the circuit using the appropriate formulas for power calculations based on the circuit elements present.

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Answer:

The discharge temperature is 259.82 K

Explanation:

In this question, we are concerned with calculating the discharge temperature

Please check attachment for complete solution

b. 1,120 ft. MSL; visibility 1 sm.

According to the Federal Aviation Administration (FAA) Instrument Procedures Handbook, the minimum descent altitude (MDA) for a straight-in localizer/distance measuring equipment (LOC/DME) runway 21 approach at Portland International Airport in a category B airplane would be 1,120 feet above mean sea level (MSL). The visibility requirement for this approach would be 1 statute mile (SM). Therefore, the correct answer to your question is: b. 1,120 ft. MSL; visibility 1 sm.

It's important to note that the MDA and visibility requirements for an approach can vary depending on the specific approach being flown and the equipment available at the airport. It's also worth mentioning that the MDA and visibility requirements must be met to fly the approach. If the actual conditions at the airport are below these minimums, the approach cannot be flown, and the pilot must either execute a missed approach or proceed to an alternate airport.

The minimum descent altitude (MDA) is the lowest altitude that an aircraft is allowed to descend to during an instrument approach. It is typically expressed in feet above mean sea level (MSL) and is established to provide the pilot with an apparent visual reference of the approach path and the surrounding terrain. The MDA is determined based on the type of approach being flown and the equipment available at the airport.

The MDA is not a decision altitude (DA), which is the altitude at which the pilot must decide to either land or execute a missed approach. The DA is typically higher than the MDA and is based on the height of obstacles in the approach path. It's important to note that the MDA is a minimum altitude, and the pilot is not required to descend to the MDA unless it is safe to do so. If the pilot cannot see the runway or the required visual references at the MDA, a missed approach must be executed. In other words, the MDA is the minimum altitude that must be maintained during an instrument approach unless the pilot can see the runway or the required visual references, in which case the pilot may continue the approach and land.

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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.

To determine the magnitude p (in kn) required to displace the roller to the right 0.368 mm, we can use the formula:

p = (3 x A x E x δ) / L
Where:
- A is the cross-sectional area of each member (206 mm2)
- E is the modulus of elasticity of A-36 steel (200 GPa)
- δ is the displacement of the roller to the right (0.368 mm)
- L is the length of each member (which we assume to be equalPlugging in the values, we get:p = (3 x 206 x 10^-6 m2 x 200 x 10^9 N/m2 x 0.368 x 10^-3 m) / LSimplifying, we get:p = 45.514 N / LTo get the value of p in kilonewtons (kN), we need to divide by 1000:p = 0.0455 kN LSince we don't have the value of L, we cannot determine the exact value of p. However, we can say that the magnitude of p required to displace the roller to the right 0.368 mm will be directly proportional to the length of each member.To calculate the magnitude P required to displace the roller to the right 0.368 mm in a truss made of three A-36 steel members with a cross-sectional area of 206 mm², you need to consider the material's modulus of magnitude and the geometry of the truss. The modulus of elasticity (E) for A-36 steel is approximately 200 GPa (Gigapascals). The next step would be to analyze the geometry of the truss and calculate the deformation in the members using the given displacement. Once the deformation is obtained, you can apply Hooke's Law to find the internal forces in the members.
Hooke's Law states that the internal force (F) in a member is equal to the product of the member's elongation (ΔL), cross-sectional area (A), and modulus of elasticity (E), divided by the original length of the member (L):
F = (ΔL * A * E) / LTo calculate the magnitude P, you would need to find the equilibrium of forces in the truss and consider the forces in the members. With the information provided, a complete answer cannot be given. Please provide the truss geometry and member lengths for further assistance.

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There are different kinds of Ac motors. If the goal is to power three-phase AC motor, the three-phase motor can be run from a single-phase power source.

The act of running a three phase motor on single phase power is very possible. The thing one has to do is  to connect or wire the single phase power to the input side of the variable frequency drive that one has and then connect or wire the three phase power of one's motor to the output part of the drive.

Conclusively, A three phase system is known to be able to send a lot of power when viewed with the single phase system.  The three circuit conductors is known to have three alternating currents

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Answer: The Hazard Communication Standard (HCS), 29 CFR 1910.1200 (h), requires all employers to provide information and training to their employees about the hazardous chemicals to which they may be exposed at the time of their initial assignment and whenever a new hazard is introduced into their work area.

Explanation: choose me as Brainliest

The required, if our new responsibilities involve working with hazardous chemicals, your employer should provide training on any chemical hazards before you begin working in that area

Chemical hazards are any physical, chemical, or toxicological properties of a chemical that may cause harm to humans or the environment.

Here,
According to the Occupational Safety and Health Administration (OSHA) regulations, employers are required to provide hazard communication training to employees who may be exposed to hazardous chemicals as part of their job duties. The training must be provided at the time of initial assignment to a job involving exposure to hazardous chemicals, and whenever a new physical or health hazard is introduced to the workplace.

Therefore, if our new responsibilities involve working with hazardous chemicals, your employer should provide training on any chemical hazards before you begin working in that area. If any new hazardous chemicals are introduced into the workplace after your initial training, your employer should provide additional training on those specific hazards.

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Answer:

(a) The distance up the slope the wagon moves before coming to rest is approximately 21.74 m

(b) The distance the wagon comes to rest from the starting point is approximately 12.06 m

(c) The value of 'U' at which the wagon should be propelled if it is to come finally to rest at its starting point is approximately 3.214 m/s (the difference in value can come from calculating processes)

Explanation:

The wagon motion parameters are;

The mass of the wagon, m = 7,200 kg

The initial velocity with which the wagon is projected along the horizontal rail, v = U

The length of the horizontal portion of the rail = 100 m

The angle of inclination of the inclined portion of the rail, θ = sin⁻¹(0.01)

The exerted frictional resistance to motion of the rail, \(F_f\) = 140 N

∴ θ = sin⁻¹(0.01)

The work done by the frictional force on the horizontal portion of the rail = 140 N × 100 m = 14,000 J

(a) If U = 3 m/s, we have;

Kinetic energy = 1/2·m·v²

The initial kinetic energy of the wagon, K.E. is given with the known parameters as follows;

K.E. = 1/2 × 7,200 kg × (3 m/s)² = 32,400 J

The energy, E, required to move a distance, 'd', up the slope is given as follows;

E = \(F_f\) × d + m·g·h

Where;

\(F_f\) = The friction force = 140 N

m = The mass of the wagon = 7,200 kg

g = The acceleration due to gravity ≈ 9.81 m/s²

h = The height reached = d × sin(θ) = d × 0.01

Therefore;

E = 140 N × d₁ + 7,200 kg × 9.81 m/s² × d₁ × 0.01 = 846.32 N × d

The energy, \(E_{NET \ horizontal}\), remaining from the horizontal portion of the rail is given as follows;

\(E_{NET \ horizontal}\) = Initial kinetic energy of the wagon - Work done on frictional resistance on the horizontal portion of the rail

∴ \(E_{NET \ horizontal}\) = 32,400 J - 14,000 J = 18,400 J

\(E_{NET \ horizontal}\) = 18,400 J

Therefore, for the wagon with energy, \(E_{NET \ horizontal}\) to move up the train, we get;

\(E_{NET \ horizontal}\) = E

∴ 18,400 J = 846.32N × d

d₁ = 18,400 J/(846.36 N) ≈ 21.7401579 m

d₁ ≈ 21.74 m

The distance up the slope the wagon moves before coming to rest, d₁ ≈ 21.74 m

(b) Given that the initial velocity of the wagon, U = 3 m/s, the distance up the slope the wagon moves before coming to rest is given above as d₁ ≈ 21.74 m

The initial potential energy, PE, of the wagon while at the maximum height up the slope is given as follows;

P.E. = m·g·h = 7,200 kg × 9.81 m/s² × 21.74 × 0.01 m = 15,355.3968 J

The work done, 'W', on the frictional force on the return of the wagon is given as follows;

W = \(F_f\) × d₂

Where d₂ = the distance moved by the wagon

By conservation of energy, we have;

P.E. = W

∴  15,355.3968 = 140 × d₂

d₂ = 15,355.4/140 = 109.681405714

Therefore;

The distance the wagon moves from the maximum height, d₂ ≈ 109.68 m

The distance the wagon comes to rest from the starting point, d₃, is given as follows;

d₃ = Horizontal distance + d₁ - d₂

d₃ = 100 m + 21.74 m - 109.68 m ≈ 12.06 m

The distance the wagon comes to rest from the starting point, d₃ ≈ 12.06 m

(c) For the wagon to come finally to rest at it starting point, we have;

The initial kinetic energy = The total work done

1/2·m·v² = 2 × \(F_f\) × d

∴ 1/2 × 7,200 × U² = 2 × 140 × d₄

d₄ = 100 + (1/2·m·U² - 140×100)

(1/2·m·U² - 140×100)/(m·g) = h = d₁ × 0.01

∴ d₁ = (1/2·m·U² - 140×100)/(m·g×0.01)

d₄ = 100 + d₁

∴ d₄ = 100 + (1/2·m·U² - 140×100)/(m·g×0.01)

∴ 1/2 × 7,200 × U² = 2 × 140 × (100 + (1/2 × 7,200 × U² - 140×100)/(7,200 × 9.81 ×0.01))

3,600·U² = 280·(100 + (3,600·U² - 14,000)/706.32)

= 28000 + 280×3,600·U²/706.32 - 280 × 14,000/706.32

= 28000 - 280 × 14,000/706.32 + 1427.11518858·U²

3,600·U² - 1427.11518858·U² = 28000 - 280 × 14,000/706.32

U²·(3,600 - 1427.11518858) = (28000 - 280 × 14,000/706.32)

U² = (28000 - 280 × 14,000/706.32)/(3,600 - 1427.11518858) = 10.3319363649

U = √(10.3319363649) = 3.21433295801

The value of 'U' at which the wagon should be propelled if it is to come finally to rest at its starting point is U ≈ 3.214 m/s

Percentage error = (3.214-3.115)/3.214 × 100 ≈ 3.1% < 5% (Acceptable)

The difference in value can come from difference in calculating methods

Answer:

Horizontal force = 89.2 N

Explanation:

The frictional force = coefficient of friction * magnitude of the force (weight of the body) * cos theta

Substituting the given values, we get -

Frictional Force = 0.3*300 * cos 25 = 89.2 N

Horizontal force = 89.2 N

Answer:

A) return.

A return is a separate piece attached to the rear edge of a countertop that extends it vertically to meet the wall. It is used to create a finished look and to protect the wall from water and other spills that may occur on the countertop.

Answer:

I looked at the comments said oh h e double hockey sticks no

Explanation:

$255 per hour

Total number of employed people = 16

(i) 5 people earn $15 per hour

That means that the total amount earned by those 5 is;

5 x $15 = $75 per hour

(ii) 4 people earn $17 per hour

That means that the total amount earned by those 4 is;

4 x $17 = $68 per hour

(iii) The remaining people earn $16 per hour.

There are 7 people remaining. i.e

16 - 5 - 4 = 7

That means that the total amount earned by those remaining (7) is;

7 x $16 = $112 per hour

The total hourly wage is therefore the sum of all the results in i, ii and iii. i.e

Total = $75 + $68 + $112

Total = $255

Therefore, the total hourly wage earned by all 16 people is $255

Answer:

Explanation:

The situation being described completely fails in regard to the importance of metrology. This is because the main importance of metrology is making sure that all of the measurements in a process are as accurate as possible. This accuracy allows an entire process to function efficiently and without errors. In a food production plant, each individual department of the plant relies on the previous function to have completed their job with the correct and accurate instructions so that they can fulfill their functions correctly and end up with a perfect product. If the oven (like in this scenario) is a couple of degrees off it can cause the product to come out burned or undercooked, which will then get transferred to the next part of production which will also fail due to the failed input (burned or undercooked product). This will ultimately lead to an unusable product at the end of the process and money wasted. Which in a large production plant means thousands of products in a single batch are thrown away.

In terms of the necessity of metrology, the situation stated absolutely fails. This is because metrology's primary goal is to ensure that all measurements in a process are as precise as feasible. This precision allows a whole process to run smoothly and error-free. If the oven temperature is wrong by a few degrees, the product will come out charred or undercooked, and the product will be sent to the next step of the process, which will also fail owing to the failed input. This will result in a useless product and a waste of money at the end of the procedure. In a big manufacturing facility, this means thousands of goods are discarded in a single batch.

9. Operands. 10. JNS instruction. 11. ecx. 12. Decrements ecx. 13. LOOP instruction and comparison instruction.

9. Only operands should be used when executing the JNA instruction.

10. In order to jump if the Sign Flag is set to 0 after a compare instruction, use the JNS instruction.

11. Counter-based loops can be quickly written using the LOOP instruction, which uses ecx as the counter.

12. In 32-bit mode, the LOOP instruction automatically decrements ecx when executed.

13. Programmers can use a combination of the LOOP instruction and a comparison instruction to create their own counter-controlled loops.

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Answer: AIR BALLAON.

Explanation:

In building elevations, the surface of the ground is shown by a heavy solid line. Thus, option C is correct.

A building elevation can be defined as the way the building would reach look or be represented. This is often built by an architect who understands all will be the view and key elemnts of the building.

As the building will need a strong structure or a story structure To be built on there for in a building elevation, the surface area is being denoted with the help of a heavy solid line with me that this one won't be easily built or collapsed. Therefore, option C is the correct option.

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The question is incomplete, the complete question will be:

a.light solid

b.heavy dashed

c.heavy solid

d.light dashed

Answer:

Hello your question is incomplete attached below is the complete question

answer :

I) P = t/R * 492.85

II) The final equation : PR / t  + 4M/πR3 =  б e

Explanation:

attached below is a detailed solution to the given problem

i) P = t/R * 492.85

ii) Final equation : PR / t  + 4M/πR3 = б e