If a machine such as a small drill press has no coolant pump, how do you best apply cutting fluid the workpiece?

Answer: OHMMETER & MEGOHMMETER:

Explanation: The ohmmeter measures circuit resistance; the megohmmeter measures the high resistance of insulation. A meter used to measure electric current. It is connected as part of a circuit.

The engineers should use dimensions of approximately 8.93 ft by 8.93 ft by 6.67 ft to create an acceptable aquarium with the least amount of glass.

To minimize the amount of glass used in the aquarium, the engineers should choose dimensions that minimize the surface area of the aquarium while still holding 500 ft^3 of water.

Since the aquarium has a square bottom, let x be the length of one side of the bottom, and let h be the height of the aquarium. Then the volume of the aquarium is given by:

V = x^2 h

We want to find the values of x and h that satisfy the constraint V = 500 ft^3 and minimize the surface area of the aquarium. The surface area of the aquarium is given by:

A = x^2 + 4xh

To minimize A subject to the constraint V = 500 ft^3, we can use the method of Lagrange multipliers. The Lagrangian function is:

L(x,h,λ) = x^2 + 4xh + λ(500 - x^2 h)

Setting the partial derivatives of L with respect to x, h, and λ equal to zero, we get:

2x + 4h - λx^2 = 0

4x - λx^2 = 0

500 - x^2 h = 0

From the second equation, we get:

λ = 4/x

Substituting this into the first equation, we get:

2x + 4h - (4/x)x^2 = 0

Simplifying, we get:

x^3 + 2hx - 1000 = 0

We can solve this equation for x numerically using a calculator or computer program. The positive solution is:

x ≈ 8.93 ft

Substituting this back into the third equation, we get:

h ≈ 6.67 ft

Therefore, the engineers should use dimensions of approximately 8.93 ft by 8.93 ft by 6.67 ft to create an acceptable aquarium with the least amount of glass.

Learn more about dimensions of an aquarium:

https://brainly.com/question/24357711

#SPj4

Answer:

Erosion is the geological process in which earthen materials are worn away and transported by natural forces such as wind or water. A similar process, weathering, breaks down or dissolves rock, but does not involve movement.Erosion is the opposite of deposition, the geological process in which earthen materials are deposited, or built up, on a landform.

Most erosion is performed by liquid water, wind, or ice (usually in the form of a glacier). If the wind is dusty, or water or glacial ice is muddy, erosion is taking place. The brown color indicates that bits of rock and soil are suspended in the fluid (air or water) and being transported from one place to another. This transported material is called sediment.

Explanation:

Physical erosion describes the process of rocks changing their physical properties without changing their basic chemical composition. Physical erosion often causes rocks to get smaller or smoother. Rocks eroded through physical erosion often form clastic sediments. Clastic sediments are composed of fragments of older rocks that have been transported from their place of origin.Landslides and other forms of mass wasting are associated with physical weathering. These processes cause rocks to dislodge from hillsides and crumble as they tumble down a slope. 

Landslides and other forms of mass wasting are associated with physical weathering. These processes cause rocks to dislodge from hillsides and crumble as they tumble down a slope.  

Plant growth can also contribute to physical erosion in a process called bioerosion. Plants break up earthen materials as they take root, and can create cracks and crevices in rocks they encounter.

Answer:

43.2%

Explanation:

Given that,

Heat absorbed by a carnot heat engine, \(Q_1=235\ kW\)

Heat rejected to the atmosphere, \(Q_2=164\ kW\)

We need ti find the thermal efficiency of the heat engine. It is equal to the ratio of output work to the energy supplied. Its mathematical form is given by :

\(\eta=1-\dfrac{Q_1}{Q_2}\\\\\eta=1-\dfrac{235}{164}\\\\\eta=-0.432\)

or

\(\eta=-43.2\%\)

The egative value of efficiency shows work is done by the engine.

The area of the region of an fcc (111) plane located within a unit cell can be calculated by (√(3)/2)*(edge length)^2

To find the area of the region of an fcc (111) plane located within a unit cell, we first need to determine the orientation of the plane with respect to the unit cell. The (111) plane of an fcc lattice is perpendicular to the [111] direction, which passes through the centers of opposite faces of the cube.

Since the fcc unit cell contains four atoms, we can draw a unit cell as a cube with atoms located at each corner. To determine the area of the (111) plane within the unit cell, we need to find the length of the projection of the [111] direction onto the plane.

This projection forms an equilateral triangle with side length equal to the edge length of the cube.

Therefore, the area of the (111) plane within the unit cell is given by:
Area = (sqrt(3)/2)*(edge length)^2

where sqrt(3)/2 is the area of an equilateral triangle with unit side length.

Learn more about projection:

https://brainly.com/question/1573371

#SPJ11

The field in Niger Delta, developed by NPDC has an estimated potential of 80,000,000 (80MM) barrels of oil. The development  is estimated to take about 4 years. The production is assumed to start at the end of the third year, and facilities will be constructed to handle 20,000 barrels of oil per day.

The economic limit is determined to be 600 barrels of oil per day. Determine a forecast of the annual production rate and cumulative production over the entire life of this field. Annual production rate: Annual production rate = 20,000 barrels of oil per day × 365 days Annual production rate = 7,300,000 barrels of oil per year.

At the end of the sixth year, the facility limit is expected to be reached, and the production will continue at a constant rate of 20,000 barrels of oil per day until the 12th year. Cumulative production: Production from year 0 to year 6 = 7,300,000 barrels of oil per year × 6 years.

Production from year 0 to year 6 = 43,800,000 barrels of oil Cumulative production from year 7 to year 12:Annual production rate = 20,000 barrels of oil per day × 365 days Annual production rate = 7,300,000 barrels of oil per year Cumulative production from year 7 to year 12 = 7,300,000 barrels of oil per year × 6 years Cumulative production from year 7 to year 12 = 43,800,000 barrels of oil.

To know more about development visit:

https://brainly.com/question/29659448

#SPJ11

Layering and terracing are similar design techniques that stack similar materials horizontally.

Layering is a high-frequency trading strategy in which traders place and then cancel orders they never intend to fill in hopes of affecting the stock price. For example, to buy a stock at a lower price, a trader first places a sell order at or below the market's ask price.

Layering may involve changing the type of assets such as Cash, gold, casino chips, real estate, etc. Complex layering schemes involve sending money around the world using a series of transactions.

Lamination, sometimes stacking, is the basic technique of placing sheets or other thin, flat materials on top of each other for visual effect. In this technique, the edges of the leaves get the most attention.

To learn more about trade visit:

https://brainly.com/question/28445907

#SPJ4

Answer:

a

Explanation:

digital identity is the answer

The core domain for Accenture’s multi-party System is that of a digital identity. Ths that option A is correct.

A multiparty system is a shared data infrastructure within the individual and the organizations that drive the efficiency nf new business and lead to the formation of the revenue models. They include the blockchain and distribution database and include a variety of technology and other capabilities.

Find out more information about the multi-party systems.

brainly.com/question/1083660

In a three-layer architecture, the three layers are the Presentation Layer, Business Logic Layer, and Data Access Layer.This architecture is designed to separate the responsibilities and concerns of each layer, promoting modularity and ease of maintenance.

The Presentation Layer is responsible for displaying the user interface and capturing user input, the Business Logic Layer processes and validates the data according to the application's rules, and the Data Access Layer handles communication with the data storage systems.In this case, we might think the presentation layer is a thin client, the domain layer is an application server, and the persistence layer is a database server. The three-tier architecture is the most popular implementation of a multi-tier architecture and consists of a single presentation tier, logic tier, and data tier.

Learn more about architecture: https://brainly.in/question/41448848

#SPJ11

Answer:

A. 1236.49 lb/ft²

B. 1037.21 lb/ft²

C 2269.7 lb/ft²

Explanation:

P = pa(1-βz/Ta)^g/Rβ

a.)

Pa [1-(0.00357)(14110)/518.67]^32.2/1716*0.00357

= 2116.2(1-0.09712)^5.26

= 2116.2(0.5843)

= 1236.49566 lb/ft²

b.)

Pressure at higher elevation

P = Pa - yz

= 2116.2-(0.07647)(14110)

= 1037.2083 lb/ft³

C.

Pressure at higher elevation if air is isothermal

= (Pa)*exp[-(32.2)(14110)/(1716)(519)]

= 2116.2*exp[-454342/890604]

= 1269.7 lb/ft²

The given statement is True. When responding to a service call, it is crucial for a technician to approach the problem using a systematic sequence to ensure that they diagnose and resolve the issue effectively and efficiently.

A systematic sequence allows the technician to follow a step-by-step process that ensures that all potential causes are identified and evaluated in a logical manner. This approach helps to reduce the risk of overlooking critical information or making assumptions that could lead to further problems. The systematic sequence may vary depending on the nature of the service call, but generally, it involves gathering information about the problem, analyzing the symptoms, identifying potential causes, testing hypotheses, and implementing solutions. By following a systematic sequence, the technician can maintain a clear and organized approach to problem-solving, which can help to reduce the likelihood of errors, save time and costs, and improve the quality of service provided to the customer. In conclusion, approaching a service call using a systematic sequence is a critical aspect of providing effective and efficient technical support. It helps the technician to identify and resolve the issue while maintaining a high level of professionalism and customer service.

Learn more about errors here:

https://brainly.com/question/30524252

#SPJ11

The Helix, located in Dublin, is an iconic building that serves as a cultural and entertainment hub for the city and the country.

It is a stunning architectural marvel with remarkable acoustic features that enhance the experience of performances held within its halls.

The building itself is a visually striking structure, designed by the renowned architect Arthur Gibney. It consists of multiple interconnected halls, each with its unique purpose and characteristics. The Helix is situated on the campus of Dublin City University, making it easily accessible to both students and the general public.

One of the main highlights of The Helix is its main hall, known as The Mahony Hall. This grand auditorium has a seating capacity of over 1,200 and boasts exceptional acoustics, making it ideal for orchestral performances, theater productions, and other large-scale events. The Mahony Hall features state-of-the-art sound systems and advanced lighting capabilities, creating a captivating atmosphere for both performers and audiences.

Another notable space within The Helix is The Space, a versatile multi-purpose venue that can accommodate various events, including conferences, exhibitions, and smaller-scale performances. The Space is characterized by its flexible layout and innovative design, allowing for seamless adaptation to different event requirements.

Learn more about design :

https://brainly.com/question/17147499

#SPJ11

Answer:

The correct answer is that a hydraulic power system is used for large amounts of force.

Explanation:

A pneumatic power system would be much more effective at focusing on a specific area. One person would be able to hold a pneumatic system, as the design can be made small. It can even be designed with a simple on/off switch.

The hydraulic system would fail because hydraulic power system is used for large amounts of force.

Energy or signals are transported through the static or dynamic forces of liquids in hydraulic power transmission systems. These fluid power systems are a subset of them. The two types of fluid power are hydraulics and pneumatics. The valves aid in controlling the liquid's flow and relieving pressure when necessary.

Pumps are used in hydraulic systems to force hydraulic fluid through the system and generate fluid power. The fluid flows to the cylinder, where the hydraulic energy is converted back into mechanical energy, after passing through the valves.

Therefore, Due to the hydraulic system's need for high levels of force, it would malfunction.

Learn more about the hydraulic system, refer to:

https://brainly.com/question/27961071

#SPJ5

The "%s" argument in the "date" command displays the number of seconds since January 1, 1970, which is known as the Unix epoch.

The command "date +%s" displays the number of seconds that have elapsed since January 1, 1970. This is known as the Unix epoch time, which is a common way of representing dates and times in Unix-based systems. The epoch time is useful for various purposes, such as measuring the duration between two events or generating unique IDs. The command works by using the "date" utility to print the current date and time in a specified format, which in this case is "%s" indicating seconds since the epoch. The output of the command is a numerical value representing the current number of seconds elapsed since the Unix epoch.

Learn more about elapsed

brainly.com/question/29775096

#SPJ11

Answer:

B is correct I believe

Answer:

The rise in temperature will be less than 5 °C in the second minute.

Explanation:

According to heat conduction law, the rate of heating is proportional to the temperature difference or temperature gradient. The temperature gradient is what drives heat to move from a hotter body at a higher temperature gradient to a colder body at a lower temperature gradient. For the potato, the initial first minute raises the temperature to 5 °C, consequently reducing the temperature gradient between the potato and the heating element in the oven. This reduced temperature gradient means that the rate at which it will conduct heat in the second minute will be lesser than that at the first minute. This will continue till the potato and the heating element are at the same temperature, at which no temperature gradient will exist between them; stopping heat transfer between them.

Answer:

The transformer will give the maximum efficiency when their copper loss is equal to the iron loss.

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

There is a photo attached with the code. Result: print ("0 is not a valid interstate highway number")

H is equal to int("Enter the highway number: "); if (h>=1 and h=99) take highway number If (h%2==0) for principal highway:

"I-%d is primary, moving eastward and westward,"%h, print #otherwise, even highway number:

print("I-%d is principal, travelling north/south"%h) #for odd road number elif(h>=100 and h=999): supplementary highway for

aux=str(h) #create a string to retrieve the rightmost number.

l=len(aux) val = aux[l-2] #find the length +aux[l-1] If (h%2==0): print("I-"+aux+" is auxiliary,"+"serving I-%d, going east/west"%h) else: print("I-"+aux+" is auxiliary,"+"serving I-%d, going north/south"%h) elif (h==0): print("I-"+aux+" is auxiliary,"+"serving I-%d, going east/ print #for 0 highway number ("0 is not a valid interstate highway number")

if not, pass

Learn more about Highway here-

https://brainly.com/question/17308859

#SPJ4

360 degrees of crankshaft rotation for a piston to move from tdc to bdc and return to tdc.

The crankshaft must rotate fully twice (or 720 degrees) in a four-stroke cycle to complete an engine cycle, spinning 360 degrees each time the piston moves from TDC to BDC and back. The engine completes this reciprocation about 125 times per second in a car with a redline of roughly 7500 rpm.

A timing belt or chain is used to connect key engine components together and maintain everything in synchronization in order to hold this incredibly precise sequence of actions together. A thick, toothed belt called a timing belt wraps around the crankshaft, water pump, and camshaft sprockets, spinning in time with the crankshaft at the base of the engine block.

To know more about crankshaft click on the link:

https://brainly.com/question/9782058

#SPJ4

Answer:

- the force of the rope on the tugboat is 14.87 kN

- Force acting on the tugboat is 24.79 kN

Explanation:

 Given the data in the question;

tugboat increases its speed uniformly to 25 km/h

v₁ = 25 km/h = (25 × 1000) / ( 1 × 60min × 60sec )

= 25000m / 3600s

=  6.94 m/s

Now, lets determine the force on the rope using the following relation;

T = \(m_b\)v₁ / t₁

\(m_b\) is mass of barge( 75 Megagram = 75 × 10³ Kilogram  ), time t₁ is 35 s and v₁ is 6.94 m/s

so we substitute

T = [(75 × 10³) × 6.94 ]  / 35

T = 520500 / 35

T = 14871.43 N

T = 14871.43 / 1000

T = 14.87 kN

Therefore, the force of the rope on the tugboat is 14.87 kN

Now, to determine F acting on the tugboat;

\(Ft_1\) = ( \(m_t\) + \(m_b\) )\(v_1\)

we solve for F

F = ( \(m_t\) + \(m_b\) )\(v_1\) / \(t_1\)

where \(m_t\) is mass of tugboat (50 Megagram = 50 × 10³ Kilogram  )

so we substitute

F = [( (50 × 10³) + (75 × 10³) )6.94] / 35

F = [ 125000 × 6.94 ) / 35

F = 867500 / 35

F = 24785.7 N

F = 24785.7 / 1000

F = 24.79 kN

Therefore, Force acting on the tugboat is 24.79 kN

Answer:

Deburring Tool

Explanation:

A deburring tool is used in order to debur the PVC pipes. They are mostly used for the plastic pipes.

After the PVC pipes are cut, there are burrs on the pipe surface. To remove these burrs, a deburring tool is used. It removes the burrs form the edges of the PVC pipes that results from grinding, cutting, milling, drilling, etc.

The deburring tools are made from high speed steels.

Air pressure at the end of the Turbine exit is : 730.57 K

Given data :

Pressure ratio ( p₂ / p₁ )= 10.9

minimum temperature ( T₁ ) = 280 K

maximum temperature ( T₃ ) = 1410 K

Assuming :

constant specific heat and efficiency of 100%

For air :

Cp = 1.005 kJ/kg.k,  Cv = 0.718 kJ/kg.k,  v = 1.4

Given that efficiency for compressor and turbine is 100% the process ( 1-2 , 3 - 4 ) will all be isentropic

We will Apply the formula below

\(\frac{T_{2} }{T_{1} } = ( \frac{p_{2} }{p_{1} } )^{\frac{v-1}{v} } = ( \frac{V_{1} }{V_{2} } )^{v-1}\)

Insert values into equation ( 1 )

T₂ = 551.147 K  ( temperature at compressor exit )

Next : Determine the value of the temperature at Turbine exit ( T₄ )

T₃ / T₄ = 10.7^\(^{\frac{1.4-1}{1.4} }\)

Therefore : T₄ = 1410 / 10.7^0.286

                        = 1410 / 1.93

                        = 730.57 K

Hence we can conclude that the Air pressure at the end of the Turbine exit is :  730.57 K .

Learn more about Turbine : https://brainly.com/question/894340

Here are five Total Quality Management (TQM) gurus along with their achievements, accomplishments, and contributions to TQM: W. Edwards Deming, Joseph M. Juran, Philip B. Crosby, Armand V. Feigenbaum,  Kaoru Ishikawa.

1. W. Edwards Deming: Deming is considered the father of modern quality management. He introduced statistical quality control methods and emphasized the importance of employee involvement in achieving quality. His key achievements include the development of the "Deming Cycle" (also known as PDCA cycle) and the 14 Points for Management.

2. Joseph M. Juran: Juran focused on the concept of quality planning, quality control, and quality improvement. He introduced the concept of the "Juran Trilogy," which includes quality planning, quality control, and quality improvement. Juran's accomplishments include the development of the Pareto principle and the concept of "fitness for use."

3. Philip B. Crosby: Crosby is known for his emphasis on the concept of "zero defects." He advocated for prevention rather than detection of defects and believed in the importance of a quality improvement process. His accomplishments include the development of the "Four Absolutes of Quality Management" and the concept of "quality is free."

4. Armand V. Feigenbaum: Feigenbaum popularized the concept of Total Quality Control (TQC). He stressed the importance of customer satisfaction and the involvement of all employees in achieving quality. His accomplishments include the development of the "Total Quality Control Handbook" and the concept of "total quality control."

5. Kaoru Ishikawa: Ishikawa is known for his contributions to the development of quality circles and the concept of the "Ishikawa diagram" (also known as the fishbone diagram). He emphasized the importance of teamwork and employee involvement in quality improvement efforts.

These five TQM gurus have made significant contributions to the field of Total Quality Management through their theories, concepts, and methodologies, which have shaped modern approaches to quality improvement in organizations.

Learn more about TQM:

brainly.com/question/15190626

#SPJ11

Explanation:

Remember, to say a product is incorporated with aesthetic design implies that its overall appearance is designed to look beautiful to the eyes of the user/buyer. For example, a clothing company whose target market is mainly focused on women's clothing would need to take into consideration that certain colors like pink, blue, etc are attractive to women more than men. So they'll have to ensure the colors of their clothing are suitable to the needs of their target market.

The Universal Design process involves building products that can be used by a wide range of users at ease. For example, you may ask yourself: Is my product/service easily accesible to those with disabilities?

Other processes include;