Using the Figure 2 below, design a backup battery/ inverter system that will reliably provide 1 kW of power for a minimum period of 2 hours. Suppliers in PE have Lead-Acid batteries in the 12 V/100 Ah size. Assuming the batteries will go through 600 charge/ discharge cycles per year. Design the system so that it will give you approximately 10 years of good use when used at 20 degrees ambient temperature. Assume the system has a combined efficiency of 96%. Also, assume that the available inverter requires an input voltage of 24V DC to operate. Number of cycles 9000 8000 7000 6000 5000 4000 3000 2000 1000 0 20 MARINE ELECTRICAL SYSTEMS III-EMES301 30 40 50 60 70 80 90 100 Depth of discharge (%) Typical cycle life versus DOD(20°C) Figure 2

The Staatliche Bauhaus, usually referred to as the Bauhaus, was a German art school that combined fine and applied arts from 1919 until 1933. The design philosophy of the school, which aimed to blend a distinctive aesthetic vision with the concepts of mass manufacturing and a focus on function, helped it become well-known.

Walter Gropius, an architect, established the Bauhaus in Weimar. The foundation of it was the notion of assembling all the arts into a Gesamtkunstwerk in the end. Later, the Bauhaus movement emerged as one of the most significant trends in contemporary design, modernist architecture, and architectural training. Following advances in art, architecture, graphic design, interior design, industrial design, and typography were greatly influenced by the Bauhaus movement. Paul Klee, Wassily Kandinsky, and László Moholy-Nagy were all employed by the Bauhaus at various times.Walter Gropius, creator of Bauhaus (1883–1969) .Three distinct architect-directors led the school in three German cities: Weimar from 1919 to 1925; Dessau from 1925 to 1932; and Berlin from 1932 to 1933.

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Answer: Cleaning of mechanical parts is necessary to remove contaminants, and to avoid clogging of wastes which could restrict the functioning of the machine.

Explanation:

There are different agents used for cleaning different machine instruments to prevent their corrosion and experience proper cleaning.

Backing plates must be dry cleaned using a cotton cloth to remove the dirt, dust or any other dry contaminant.

Struts can be wet cleaned by applying alcoholic solvent.

Levers can be cleaned using a mineral spirit.

Metallic plates can be cleaned using water based solution or water.

The injection molding department of a company that operates 24x7 uses an average of 34 gallons of special lubricant per day. The usage of lubricant is normally distributed with a standard deviation of 4.4 gallons per day and it takes 6.5 weeks for an order of lubricant to be delivered. If the largest service level is 73% The reorder point for the injection molding department is approximately 1549.508 gallons.

To calculate the reorder point, we need to consider the lead time demand, which is the demand during the time it takes for a new order to be delivered.

Given that the injection molding department operates 24x7 and uses an average of 34 gallons of special lubricant per day, we can calculate the daily demand as 34 gallons.

Since the demand follows a normal distribution with a standard deviation of 4.4 gallons per day, we can use the Z-score formula to calculate the safety stock. The Z-score represents the number of standard deviations from the mean.

To determine the Z-score corresponding to a service level of 73%, we can use a Z-table or a statistical calculator. The Z-score for a 73% service level is approximately 0.57.

Next, we need to calculate the lead time demand. The lead time is given as 6.5 weeks, and since there are 7 days in a week, the lead time is equal to 6.5 x 7 = 45.5 days.

To calculate the lead time demand, we multiply the average daily demand by the lead time in days. Therefore, the lead time demand is 34 gallons/day x 45.5 days = 1547 gallons.

To calculate the reorder point, we add the lead time demand to the safety stock. The safety stock is given by the formula: Safety Stock = Z-score x standard deviation.

Using the given standard deviation of 4.4 gallons per day and the calculated Z-score of 0.57, the safety stock is 0.57 x 4.4 gallons/day = 2.508 gallons.

Finally, we can calculate the reorder point by adding the lead time demand to the safety stock: Reorder Point = Lead time demand + Safety stock.

Reorder Point = 1547 gallons + 2.508 gallons = 1549.508 gallons.

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A new approach for the preparation of functionally graded materials is via slip casting in a gradient magnetic field. This technique allows for the fabrication of materials with varying composition and properties, enabling better control over their performance.

Slip casting involves pouring a ceramic slurry into a mold and allowing it to solidify. In this approach, a gradient magnetic field is applied during the casting process. The magnetic field causes the particles in the slurry to align and arrange themselves in a specific manner, resulting in a functionally graded structure. By controlling the strength and direction of the magnetic field, different regions of the material can have varying composition and properties. This technique offers a cost-effective and efficient way to produce functionally graded materials. A new approach for the preparation of functionally graded materials is via slip casting in a gradient magnetic field. Functionally graded materials (FGMs) are materials that possess a continuous variation in composition and properties, allowing for tailored performance in specific applications. Slip casting is a common technique used for producing ceramic-based materials. It involves pouring a ceramic slurry, consisting of ceramic particles suspended in a liquid medium, into a mold. The slurry then solidifies, forming the desired shape. In the new approach, a gradient magnetic field is applied during the slip casting process. When a magnetic field is applied, it exerts a force on the particles in the slurry, causing them to align and arrange themselves in a specific manner. The strength and direction of the magnetic field can be controlled, allowing for precise manipulation of the particle orientation. As a result, the material can be fabricated with a gradient of composition and properties. The gradient magnetic field affects the particle alignment and concentration within the slurry, resulting in a controlled variation of properties across the material. For example, the concentration of ceramic particles can be gradually changed along the casting direction, resulting in a functionally graded structure. This gradient in composition can lead to a variation in mechanical, thermal, or electrical properties, depending on the application requirements. The slip casting in a gradient magnetic field approach offers several advantages. Firstly, it allows for the production of FGMs with complex geometries, which are difficult to achieve using traditional methods. Secondly, it offers a cost-effective and efficient way to produce functionally graded materials, as the process is relatively simple and can be easily scaled up for mass production. Lastly, it enables better control over the material's performance, as the composition and properties can be precisely tailored to meet specific application needs. In conclusion, slip casting in a gradient magnetic field is a new approach for the preparation of functionally graded materials. This technique involves pouring a ceramic slurry into a mold and applying a gradient magnetic field during the casting process. The magnetic field causes the particles in the slurry to align and arrange themselves in a specific manner, resulting in a functionally graded structure. This approach offers advantages such as the ability to produce complex geometries, cost-effectiveness, and precise control over the material's performance. It provides a promising method for fabricating functionally graded materials with tailored properties for various applications.          

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A new approach for preparing functionally graded materials is slip casting in a gradient magnetic field.

Here,

Slip casting is a technique used to make ceramic-based materials.

In this new approach, a gradient magnetic field is applied during the casting process. This causes the particles in the slurry to align and arrange themselves in a specific way, creating a material with varying composition and properties.

The strength and direction of the magnetic field can be controlled to achieve different regions of the material with different properties. This technique is cost-effective, efficient, and allows for the production of complex materials.

It offers better control over the material's performance, making it suitable for various applications.

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Answer:A

Explanation:

Those who want to save money and will use the product for only a few years

Answer:

THE ANSWER is A - those who want to save money and will use the product for only a few years

Explanation: Got it right on edg 2021

Answer:

Attached below is the Radial power circuit arrangement

Explanation:

Radial power circuit arrangement is done in a way that a single cable starts from the fuse box and connects to all the outlet socket contained in the circuit also the cable contains wires ( live , neutral and earth )

The advantage of a radial power circuit arrangement is that it enables easy identification of electrical faults on the circuit.

Modern petrol engines employ ignition coils in all ignition systems for the same fundamental purpose: to produce the high voltage necessary to ignite a spark at the spark plug.

An electric spark is used in a gasoline engine's ignition system to start the fuel-air combination, which burns in the cylinders to create the motive force.

A storage battery, an induction coil, a device to timing high-voltage discharges from the induction coil, a distributor, and a set of spark plugs are the essential parts of the ignition system. The mechanism converts the low voltage electric current from the storage battery, which is typically 12 volts, to high voltage (some 40,000 volts). The distributor sends the high-voltage pulses in succession to each spark plug in the firing order.

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Answer:

:)

Explanation:

The correlation between a factor and an outcome could be a coincidence, or it could be caused by a completely different factor. For example, as ice cream sales increase, sales of meat for barbecues also increase.

The volume of the given region in the first octant, bounded by the coordinate planes and the surfaces y=1-x² and z=1-x², is 1/12.

To find the volume of the given region in the first octant , bounded by the coordinate planes and the surfaces y=1-x² and z=1-x² , we can use the triple integral formula:

V = ∫∫∫dV = ∫∫∫dx dy dz

where the region R is given by:

0 ≤ x ≤ 1, 0 ≤ y ≤ 1-x² and 0 ≤ z ≤ 1-x².

The sketch of the region is as shown below:

The volume of this region is then given by:

V = ∫∫∫dx dy dz = ∫1-x² dx∫1-x² dy ∫1-x² dz

= ∫1-x² dx∫1-x² dy ∫1-x² dx

= ∫1-x² dx∫1-x² dy (x - x³/3)

= (x - x³/3)∫1-x² dx∫1-x² dy

= (x - x³/3)∫1 dx∫1-x² dy

= (x - x³/3)(1 - (1-x²)²/2)

= (x - x³/3)(x - x² + x⁴/2)

= (x³ - x⁴/2 - x⁴/2 + x⁵/6)(x - x² + x⁴/2)

= x⁵/6 - x⁶/4 + x⁷/6

= x⁵/6 - x⁶/12

= 1/6 - 1/12 = 1/12.

Therefore, the volume of the given region in the first octant, bounded by the coordinate planes and the surfaces y=1-x² and z=1-x², is 1/12.

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Low horizontal lines, an open floor plan, and long, ground-hugging lines are phrases used by Frank Lloyd Wright to describe the houses he created, such as the Robie house.

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Answer:

Well there are a lot of delicious food in the philppines but my most favorite is the Lechon, Adobo, Sisig, Chicken Curry, Crispy pata and Sinigang

Answer:

The engineer will conduct a variety of tests, including chemical, mechanical, electrical, and physical examinations, to determine the potential of the new material.

Explanation:

They will need to test the material, this will also help to determine its malleability.

Hope this helps!

To find the recurrence relation for the number of permutations of a set with n elements, we can start by considering the base case of n=1. In this case, there is only one permutation of the set, which is the set itself.

Now, let's consider the case where n>1. We can choose one element from the set and fix it in place. There are n choices for which element to fix, and once we have done this, we are left with a set of n-1 elements that we need to permute. By the multiplication principle, the number of permutations of the set of n elements is equal to the number of ways to choose an element to fix, multiplied by the number of permutations of the remaining n-1 elements.

Therefore, we can write the recurrence relation as:

P(n) = n * P(n-1)

where P(n) represents the number of permutations of a set with n elements.

To use this recurrence relation to find the number of permutations of a set with n elements using iteration, we can start by setting the base case of P(1) = 1. Then, we can use the recurrence relation to compute P(2), P(3), and so on, until we reach P(n).

For example, to find P(2), we can use the recurrence relation:

P(2) = 2 * P(1) = 2 * 1 = 2

To find P(3), we can use the recurrence relation again:

P(3) = 3 * P(2) = 3 * 2 = 6

And so on, until we find P(n) using the recurrence relation.

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Answer:

The velocity at section is approximately 42.2 m/s

Explanation:

For the water flowing through the pipe, we have;

The pressure at section (1), P₁ = 300 kPa

The pressure at section (2), P₂ = 100 kPa

The diameter at section (1), D₁ = 0.1 m

The height of section (1) above section (2), D₂ = 50 m

The velocity at section (1), v₁ = 20 m/s

Let 'v₂' represent the velocity at section (2)

According to Bernoulli's equation, we have;

\(z_1 + \dfrac{P_1}{\rho \cdot g} + \dfrac{v^2_1}{2 \cdot g} = z_2 + \dfrac{P_2}{\rho \cdot g} + \dfrac{v^2_2}{2 \cdot g}\)

Where;

ρ = The density of water = 997 kg/m³

g = The acceleration due to gravity = 9.8 m/s²

z₁ = 50 m

z₂ = The reference = 0 m

By plugging in the values, we have;

\(50 \, m + \dfrac{300 \ kPa}{997 \, kg/m^3 \times 9.8 \, m/s^2} + \dfrac{(20 \, m/s)^2}{2 \times 9.8 \, m/s^2} = \dfrac{100 \ kPa}{997 \, kg/m^3 \times 9.8 \, m/s^2} + \dfrac{v_2^2}{2 \times 9.8 \, m/s^2}\)50 m + 30.704358 m + 20.4081633 m = 10.234786 m + \(\dfrac{v_2^2}{2 \times 9.8 \, m/s^2}\)

50 m + 30.704358 m + 20.4081633 m - 10.234786 m = \(\dfrac{v_2^2}{2 \times 9.8 \, m/s^2}\)

90.8777353 m = \(\dfrac{v_2^2}{2 \times 9.8 \, m/s^2}\)

v₂² = 2 × 9.8 m/s² × 90.8777353 m

v₂² = 1,781.20361 m²/s²

v₂ = √(1,781.20361 m²/s²) ≈ 42.204308 m/s

The velocity at section (2), v₂ ≈ 42.2 m/s

a. In this scenario,I would use   a deadlock-prevention scheme.

b. One common deadlock-prevention scheme is the "Resource Allocation Graph" (RAG) method.

c. If I were to use a deadlock-detection scheme, I would consider the "Banker's Algorithm."

a. I would use a deadlock-prevention scheme because it focuses on eliminating the conditions that lead to deadlocks, reducing the chances of them occurring.

b. I chose the Resource Allocation Graph (RAG)method as it provides a structured approach to   prevent deadlocks by managing resource allocation effectively.

c. If I were to use a deadlock-detection scheme, the Banker's Algorithmis a suitable choice as it can   identify potential deadlocks by analyzing resource allocation requests and ensuring safe state conditions are met.

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All of the above are acceptable means of making a steel column fire-resistant.

Spraying low-density fibers or cementitious compounds, also known as spray-applied fire-resistive materials, is the most common method of fireproofing.

Applying intumescent mastic/paint also known as intumescent paints protects steel members from fire. By creating a buffer between a steel element and the fire, intumescent coatings can expand by as much as 100 times their original thickness.

Encase the column in concrete is majorly utilized in large sections whereby steel is encased in. Based on the amount of concrete used, this requires more space than other options. Additionally, because it is not as visually appealing as others, it is utilized in settings where appearance is not the primary consideration.

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Answer:

a warmer earth due to fossil fuel emissions has milder winters and earlier springs

Explanation:

fossil fuels cause global warming which would make the winters less cold and spring and summer hotter.

According to the book, cable systems that are required by law to offer service on a first-come, first-serve basis and do not get involved in program content are known as common carriers.

Common carriers refer to cable systems that provide access to multiple channels and are regulated by laws and regulations to ensure fair and non-discriminatory access for content providers. These cable systems operate as a platform or conduit for delivering various channels and programs to subscribers. They are required to offer their services to content providers based on a first-come, first-serve basis, without interfering or controlling the program content.

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Answer:

Explanation:

It really all depends, it varies from 375 to 830, you can't mark one as " Lamborghinis have this much hp always " seeing it fluctuates so much car to car

Not reaching an agreement can pose challenges when both parties agree to stop a project prematurely

In such a situation, it is not appropriate to resort to legal action immediately.

Instead, it is advisable to explore alternative dispute   resolution methods, such as mediation or negotiation, to facilitate a mutually acceptable solution.

Engaging in open and constructive communication,seeking compromise, or involvinga neutral third party can help in finding a resolution that respects the interests   and concerns of both parties.

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Answer:

Motorcyclist Fatality and Injury Rates per Vehicle Miles Traveled, 1998-2008. 10. 9. Fatalities in School Transportation Related Crashes,. 1998-2008.

Explanation:

Yes, bytecode files are executable because they contain instructions that can be interpreted and executed by a virtual machine.

However, bytecode files are considered low-level because they are not machine code, but rather an intermediate code that is used to improve portability across different platforms.

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The building envelope is an essential component of any structure, providing a protective barrier between the interior and exterior of the building. By controlling the flow of air, moisture, and heat, the building envelope ensures the indoor air quality and energy efficiency of the building.

The components of the building envelope include the walls, roofs, windows, doors, and foundation of the building, as well as insulation and other materials. The primary purpose of the building envelope is to provide a protective barrier against the elements, ensuring the interior of the building is insulated from the outside climate. The building envelope also helps to maintain indoor air quality, as it reduces the amount of air infiltration from outside. In addition, the building envelope increases the efficiency of the building’s heating and cooling systems, reducing energy consumption and costs.

In order to maintain its protective barrier, the building envelope must be constructed with durable and weather-resistant materials. Additionally, the building envelope should be properly sealed to reduce air leakage. Windows and doors should be designed to minimize the risk of water infiltration, while insulation should be installed to reduce heat transfer.
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Answer:

are you wht

didn't understand the question

Answer:

Yes/No

Explanation:

NANI?!

Only the activities of drafts, layouts and specification involves applied art skills distinguishes an architect’s use of creative thinking  Hence option A is correct.

Creative thinking is defined as the capacity to tackle a situation or difficulty from a novel angle, alternate perspective, or unconventional thinking. Creative thinking, also referred to as creative problem-solving, is an important and marketable soft skill in a wide range of industries.

The architect  will think about the creative changes in drafting the text, in making the specifications and in making new and affective layouts.

Thus, only the activities of drafts, layouts and specification involves applied art skills distinguishes an architect’s use of creative thinking  Hence option A is correct.

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Answer:

) You must create a Low Pass Filter for an audio amplifier. You must pass 10khz and block

60khz. In designing this, you must choose a cutoff frequency exactly half way between

these two frequencies. In addition, you must use a 0.2uF capacitor in you LPF circuit.

Given these criteria, analyze this circuit, and determine the necessary resistor value in

Ohms. Find the output Voltage at both ends of the spectrum. Based on your results, is

this a good design? NOTE: You MUST show your work (when using MS Word, choose

“Insert”--- “Equation”). (6 marks)

a. Solve for fc

b. Solve for R

c. Solve for Vout at 10khz

d. Solve for Vout at 60khz

e. Good design> (yes or no with an explanation)

Explanation:

The answer to the question which of the following is an example of UFW simple syntax for blocking all incoming and outgoing connections without providing a blocking message are given below syntaxs

To block all incoming and outgoing connections using UFW simple syntax, you can use the following commands:

1. To block all incoming connections:
```bash
sudo ufw default deny incoming```

2. To block all outgoing connections:
```bash
sudo ufw default deny outgoing```

These commands will set the default policies for incoming and outgoing connections to be blocked without providing a blocking message.

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Answer:

Airplanes have a small little jet on the back allowing them to get in the air but they have these big engines on the side allowing them to maintain their spot in the air

Explanation: