According to technician B, the differential assembly is correctly linked to the drive wheels ring gear.
What is Gear?
A gear is a rotating , circular machine element with teeth that can be cut, or in the case of a cogwheel or gearwheel, they can be inserted. These teeth, known as cogs, mesh with another grooved part to transfer (convert) torque and speed. The basic idea underlying how gears work is comparable to the fundamental idea behind how levers work. Cog is another casual term for a gear. Geared devices can vary the speed, torque, and orientation of a power supply.
To know more about gear
https://brainly.com/question/89863
#SPJ4
A single instrument that brings together all of the contract segments by reference and functions for the formal execution of the contract. Agreement Contract Clauses Progress Payments Retainage Question 58 (1 point) Pick the answer that best fits the below description Nontechnical provisions Agreement Contract Clauses Progress Payments Retainage Question 59 (1 point) Pick the answer that best fits the below description. Periodic cost reimbursements Agreement Contract Clauses Progress Payments Retainage
The answer that best fits the description is Progress Payments.
Progress payments are periodic cost reimbursements made to the contractor by the owner as a part of the contract agreement. They are usually made in intervals specified in the contract and are based on the completion of certain milestones or the delivery of certain deliverables.
Progress payments are payments made by a buyer to a seller at predetermined stages of construction or another project. Progress payments are usually made after a certain portion of the project is completed. They provide the seller with working capital to finance the project, while also providing the buyer with the assurance that the project is progressing as planned.
For more questions like Progress payments click the link below:
https://brainly.com/question/29096799
#SPJ4
9.37 the force per unit length/that is exerted by the wind on the 24 ft tall sail as a function of it height z is given by
The force between two parallel currents I1 and I2 that are spaced apart by r is measured as the ratio F/l.
If the currents are flowing in the same direction, the force is attracting; if not, it is repulsive. The pinch effect in electric arcs and other plasmas is caused by this force. The basic concept of the ampère derives from this force between two current-carrying wires: The strain on each wire is 2 x 10- 7 N/m if two long parallel wires spaced 1 m apart carry a current of 1 A each. The International System of Units' (Symbol: N) unit of force is the newton (SI).
Learn more about system here-
https://brainly.com/question/27162243
#SPJ4
technician a says that anti-freeze is added to coolant to protect the coolant from freezing and lowers the boiling point. technician b says anti-freeze lowers the freeze point and raises the boiling point of coolant. who is correct?
Both Technician A and B are correct because While raising the coolant's boiling point, it lowers the coolant's freezing point.
In order to help control engine temperature, antifreeze is a tinted liquid that you add to your radiator along with water. Ethylene glycol, which lowers water's freezing point and increases its boiling point, is a key component of the substance. By doing this, you can avoid having your radiator's water freeze, boil, or evaporate. At 212°F, water begins to steam. The boiling point of conventional ethylene glycol antifreeze is raised to 223°F by combining it with water in a 50-50 ratio; this temperature is close to that of an engine. Antifreeze is an additive that lowers a liquid's freezing point that is made of water. A mixture of antifreeze is used to lower the freezing point for cold environments and raise the boiling point for higher coolant temperatures.
Learn more about boiling point here:
https://brainly.com/question/2153588
#SPJ4
g what happens to power production if a wind turbine hub height is increased from 100 m to 150 m elevation?
Taller towers allow turbines to catch more energy and produce more electricity since wind speed rises with height.
Does altitude affect wind power?When the wind speed at the surface is insufficient to drive a conventional turbine, wind power can be accessible higher up. At higher altitudes, the wind blows steadier, reducing erraticness. Wind speed has a cubic effect on power. Going a bit higher could therefore result in a lot more power.They discovered that winds have the highest wind power density at altitudes around 32,000 feet by analysing the distribution of wind power in the atmosphere, by location, and over time.With the initial tests being conducted roughly 12 years ago, high altitude (500 to 2000 m) wind power generators are still in a relatively early stage of development.Average surface wind speeds are significantly below the 5 m/s needed for traditional ground-based wind turbines to function over the majority of Earth's land area. Therefore, conventional wind turbines can only be installed in specific locations where strong, consistent surface winds blow on a regular basis.To learn more about wind power refer :
https://brainly.com/question/4117193
#SPJ4
a cantilever beam having a channel cross section is loaded as shown. a-find state of stress for point d. b-find principal stresses, maximum in-plane shear stress and their orientation.
Answers: a: Ox = - 20.6 MPa 25 kN Txy = 17.6 MPa 60 mm 20 mm b: 3 Al 0 = 10.1 MPa min max τ max = - 30.7 MPa = 20.4 MPa - 29.8° CW D X 60 mm 50 mm 110 mm P = + 15.2° CCW B 10 mm HHH 120 mm 10 mm
A) state of stress for point d = 17.65 MPa
B) Principal stresses ⇒ Maximum stress = 30.4 MPa, Minimum stress = 10.1 MPa
Maximum in-plane shear stress = 20.4MPa
Orientation ⇒ ∅(C.W) = 29.8°, ∅(C.C.W) = 15.2°
What is principal stress?We can define principal stress as the development of normal and shear stresses upon the application of any load to a body. Since all three planes—X, Y, and Z—are perpendicular to that point, the applied loading was concentrated there. Principal stress is the name given to the stress that results on these planes.
The purpose of determining whether a principal stress is sustainable is to determine the maximum force that can be placed on a body while still being safe. Resultant principal stress is defined as any normal stress that is centered at a point on a plane. We always take the design stress into account when designing any structure. Therefore, we need to know the maximum or minimum stress, which is the sustainability of the principal stresses, in order to design the structure.
Learn more about Principal stress
https://brainly.com/question/14418799
#SPJ4
Answer the following with a yes or no along with proper justification. a. Is the decision boundary of voted perceptron linear? b. Is the decision boundary of averaged perceptron linear?
There are nonlinear bounds for the perceptron that was voted on. The area of a problem space where a classifier's output label is ambiguous is known as a decision boundary.
The classification issue is linear and the classes are separable linearly if the decision surface is a hyperplane. Decision lines aren't always obvious. A linear model is not a decision stump. Even if the model is not linear, the decision boundary can still be a line. Consider logistic regression. It was initially proposed at a time when academics had a firm belief that mathematical models could be used to resolve issues with production planning for a period of time like a year.
Learn more about output here-
https://brainly.com/question/24179864
#SPJ4
technician a says that a common rail engine can vary the injection pressure, timing, and injection rate shape for each injector. technician b says that the injection pressure is the same for all injectors in common rail engines, and injectors can perform multiple injection events during each combustion cycle. who is correct?
Technician a is correct because According to him, a common rail engine has the ability to change the injection pressure, timing, and rate shape for each injector.
An alternative to low-pressure fuel pumps feeding unit injectors is a direct fuel injection system called common rail engine direct fuel injection, which is designed on high-pressure fuel rail feeding solenoid valves. The rail functions as a fuel accumulator to keep the pressure in the engine's fuel system roughly constant at all fuelling rates. Through high pressure pipes, fuel is delivered from the rail to the injectors. Each solenoid valve within an injector is sequentially activated by current pulses produced by the ECU. Commercial common rail systems employ radial, unit, and in-line pumps. High pressure pump designs are changing to improve the fuel injection system's efficiency and enable precise rail pressure management. The pressure in the common rail can be controlled in a number of ways.
Learn more about rail engine here:
https://brainly.com/question/13833603
#SPJ4
The following tabulated data were gathered from a series of Charpy impact tests on a tempered 4340 steel alloy. Temperature (°C) 0 25 50 75 100 113 125 150 175 200 Impact Energy (J) 105 104 103 97 63 40 34 28 25 24 (a) Plot the data as impact energy versus temperature. (Hint: use engineering paper for the graph) (b) Determine a ductile-to-brittle transition temperature as the temperature corresponding to the average of the maximum and minimum impact energies. (c) Determine a ductile-to-brittle transition temperature as the temperature at which the impact energy is 50J
The temperature corresponding to the average of the maximum and minimum impact energies is 65 J for the ductile-to-brittle transition temperature.
What causes ductile to brittle transition?Some metals that are ductile at room temperature become brittle at low temperatures. This is referred to as a ductile-to-brittle transition. The ductile to brittle transition temperature is strongly influenced by the metal's composition. Steel is the most common metal that exhibits this behaviour.Brittle materials fracture with little elastic deformation and no significant plastic deformation when subjected to stress.Ductility is a mechanical property that is commonly defined as a material's ability to draw. In materials science, ductility is defined as a material's ability to withstand plastic deformation under tensile stress before failing.Average = 124J + 6J divided by 2 = 65J
According to this criterion, the ductile-to-brittle transition temperature is around -105°C, as indicated on the plot by one set of dashed lines.
A ductile to brittle transition temperature is defined as the temperature at which the impact energy is 80J. Also, as shown by the other set of dashed lines on the plot, the ductile-to-brittle transition temperature for an impact energy of 80 J is around -95°C.
To learn more about brittle refer :
https://brainly.com/question/29517921
#SPJ4
a honeypot is configured to entice attackers and allows administrators to get information about the attack techniques being used.True or False
A honeypot is configured to entice attackers and allows administrators to get information about the attack techniques being used is true.
What is a honeypot?To inflict harm so that security administrators may research the methods and intrusion entry points, hackers can easily target a honeypot. A security technique known as a honeypot is used to deter intruders from using legitimate network resources while monitoring their activity.
A security measure known as a honeypot sets up a virtual trap to entice intruders. Attackers can take advantage of flaws in a computer system that has been purposefully compromised, allowing you to research them and strengthen your security measures.
A honeypot is a safe, controlled environment used to study various threats and demonstrate how attackers operate. With a honeypot, security personnel may concentrate entirely on the threat without being diverted by actual network activity. Internal dangers can also be detected via honeypots.
To learn more about honeypot refer to:
https://brainly.com/question/17004996
#SPJ4
in-order superscalar processors behave similarly to architectures because they must fetch, decode and execute instructions in lock step, similar to defining a larger instruction composed of multiple small instructions.
A superscalar processor can execute more than one instruction during a clock cycle in contrast to a scalar processor, which can only carry out one instruction at a time.
A superscalar processor is a CPU that uses instruction-level parallelism, a type of parallelism, on a single processor. A superscalar processor can execute more than one instruction during a clock cycle in contrast to a scalar processor, which can only carry out one instruction at a time. This is accomplished by simultaneously dispatching numerous instructions to various execution units inside the processor. As a result, it enables higher throughput than would otherwise be possible at a specific clock rate (the number of instructions that can be executed in a unit of time). Each execution unit is an execution resource within a single CPU, such as an arithmetic logic unit, rather than a separate processor (or a core if the processor is a multi-core processor).
To know more about superscalar processor click here:
https://brainly.com/question/29353229
#SPJ4
Modify this program so that it writes the values in two columns, like this: 32.00 67.50 35.00 115.00 100.00 Total: 54.00 29.00 80.00 44.50 65.00 622.00 Complete the following file:
To Modify this program so that it writes the values in two columns, check the code given below.
What is program?A computer language of some sort is used when writing programs. The source program is the language statements that you use. A language compiler is then used to compile the source code, producing what is known as an object program (not to be confused with object-oriented programming).
Object program has a number of synonyms, such as object module and compiled program. The machine language, or string of 0s and 1s, that the logic processor uses is contained in the object program.
import java.io.File;
import java.io.FileNotFoundException;
import java.io.PrintWriter;
import java.util.Scanner;
/**
* This program reads a file with numbers, and writes the numbers to another
* file, lined up in two columns, and followed by the total.
*/
public class Total {
public static void main(String[] args) throws FileNotFoundException {
// Prompt for the input and output file names
Scanner console = new Scanner(System.in);
System.out.print("Input file: ");
String inputFileName = console.next();
System.out.print("Output file: ");
String outputFileName = console.next();
// Construct the Scanner and PrintWriter objects for reading and writing
File inputFile = new File(inputFileName);
Scanner in = new Scanner(inputFile);
PrintWriter out = new PrintWriter(outputFileName);
// Read the input and write the output
double total = 0;
int count = 1;
while (in.hasNextDouble()) {
double value = in.nextDouble();
if(count%2==1)
out.printf("%15.2f\t", value);
else
out.printf("%15.2f\n", value);
++count;
total = total + value;
}
if(count%2==0)
out.printf("\n");
out.printf("Total: %8.2f%n", total);
in.close();
out.close();
}
}
Learn more about program
https://brainly.com/question/26134656
#SPJ1
Determine the drag coefficient by fitting a polynomial to velocity- force data The magnitude of the aerodynamic drag force F, on a moving automobile can be modeled by the equation: F = 1 AC where p is the density of the surrounding air, A is the reference area of the automobile, and is a dimensionless constant called the drag coefficient. For a fixed car and air density, the equation can be simplified to Fa= where y acts as an effective drag coefficient with units of Force/Velocity? In this problem, you will estimate the effective drag coefficient by fitting a polynomial to drag force data. The data file, VelocityDragDataba, contains multiple force measurements (second column) taken at speeds from 15 to 150 km/h at increments of 5 kmh (first column). Code has been provided to load the data into a matrix dragpata. Velocity Force 15 5.795754 15 6.027559 15 6.040762 15 6.218395 15 6.553317 20 10.13281 20 10.73376 20 10.91766 20 11.06578 20 11.18402 25 17.02669 25 17.04141 25 17.37333 25 17.7684 25 18.65124 30 23.92056 30 23.96381 30 24.41368 30 24.64035 30 24.74886 Complete the steps below to estimate y by fitting a polynomial to the data using the polyfit function 1. Create a column vector v corresponding to the velocity 2. Create a column vector x corresponding to the Velocity values squared 3. Create a column vector y corresponding to the force 4. Plot x on the x-axis and y on the y-axis 5. Add a title to the graph (Force vs. Velocity 6. Add a lable to the z axis [Velocity (km/h) 7. Add a label to the y-axis (Drag Force (N) Script Save Reset DE MATLAB Documentation 1 dragData = load ('VehicleDragoata.txt'); X Load the data 2 V = % Get x from the first column on dragData (use :) X=% xis v squared (remember how to write power for matrix) 4 y = ; % Get y from the second column on dragForce (use :) 5 6 X Plot x on the X-axis and y on the y-axis 7 % Add title to the graph: Force vs. Velocity Add label to the X-axex: Velocity (km/h) 5 % Add label to the y-axis: Drag Force (N) 10 ► Run Script > Submit Assessment: Is v correct? is x correct? Is y correct?
Drag factor It is discovered that FD is inversely correlated with square of the object's speed. F D ∝ v 2 F D = 1 2 C ρ A v 2 , where A is the area of the object facing the fluid, C is the drag coefficient, and is the fluid's density.
The size of the drag force FD is discovered to be proportional to the square of the speed of the object for the majority of large things, such as bicycles, cars, and baseballs, when they are not travelling too slowly. This relationship can be expressed mathematically as F D v 2.
This connection changes to F D = 1 2 C A v 2 when other parameters are taken into consideration, where C is the drag coefficient, A is the area of the object confronting the fluid, and is the fluid's density. (Remember that mass per unit volume equals density.) In a more generalized form, this equation can be written as FD = bv2, where b is a constant equal to 0.5CA. For these, we've set the exponent n.
To know more about drag click here:
https://brainly.com/question/12774964
#SPJ4
an architectural element that projects from a wall to support a horizontal part of a building such as beams or eaves of a roof is called:
An architectural element that projects from a wall to support a horizontal part of a building such as beams or eaves of a roof is called: Bracket.
A soffit is a horizontal, elevated aspect of any construction element that can be seen on the interior or exterior of a building. The underside of eaves (used to join a retaining wall to projecting edge(s) of the roof) is its classic form, occasionally integrating or implying the projection of beams. The bracket that gives support underneath a structure like a roof, ceiling, window, beam, or shelf is known in architecture as a corbel. In addition, a block or other system that protrudes from a building's wall is referred to as a corbel.
Learn more about system here-
https://brainly.com/question/27162243
#SPJ4
The material review board at a circuit board manufacturer found that 15 percent of the diodes on the boards were inserted with the wrong polarity. the best corrective action of the following choices is
create a poka-yoke key so the diodes cannot be inserted backwards
The best corrective action of the following choices is create a poka-yoke key so the diodes cannot be inserted backwards.
What is poka-yoke concept?Poka-Yoke makes ensuring the proper circumstances are present before a process step is carried out, preventing errors from developing in the first place. When this isn't possible, Poka-Yoke plays the role of a detective, finding and fixing problems as soon as they arise.Any mechanism in a Lean manufacturing process that aids in error prevention is known as a poka-yoke. Its goal is to eliminate product flaws through the prevention, correction, or awareness of human errors as they happen.Utilizing Poka-Yoke has the advantage of facilitating first-time accuracy in people and processes, which eliminates the possibility of errors. By removing flaws, these methods can greatly raise the quality and dependability of processes and goods. This method of manufacturing blends flawlessly with the continuous improvement culture that is a key component of lean management.To learn more about poka-yoke refer :
https://brainly.com/question/13499982
#SPJ4
consider the loading shown. note: this is a multi-part question. once an answer is submitted, you will be unable to return to this part. identify the equation of the elastic curve for the cantilever beam ab.
The following techniques can be used to determine the equation for the elastic curve of a beam.
The first and second derivatives of the function that represents the curve in terms of the Cartesian coordinates x and y are dydx and d2ydx2, respectively. Assuming that the longitudinal stresses on the fibers are within the elastic limit, the elastic curve of a beam is the curve formed by the intersection of the neutral surface with the side of the beam. The Bending Moment Equation's double integral is taken in order to do the fundamental computation. There are formulas for both cantilever beams and beams that are simply supported. These are the calculations: Leaning beam: Cantilever beam deflection is calculated using the formula (WL**3**)/. (3EI).
Learn more about deflection here-
https://brainly.com/question/17770985
#SPJ4
branch-circuit conductors to the farthest locations in residence may have to be oversized, compare to the over current protective device in order to compensate for ______.
a) voltage drop
b) expansion and contraction
c) frequency
d) future use
The NEC advises that the maximum voltage drop on the feeder or branch circuit shouldn't be more than 3% and that the maximum voltage drop on both the feeder and branch circuit shouldn't be more than 5%.
Branch Conductors are the Circuits that supply electricity to the Loads or Devices being powered by the Electrical Service Panel via the circuit breakers located in the Service Panel. Table 310-13 of the National Electric Code provides a list of the numerous insulation options. (2) The smallest conductor size authorized in residential wiring is 14 A WG, according to NEC 210-19(c). The smallest conductor size allowed for building wiring by the NEC is 14 AWG [310.5]. However, 12 AWG must be utilized as the smallest branch circuit wire per municipal codes and many industrial buildings.
Learn more about voltage here-
https://brainly.com/question/29342143
#SPJ4
Steam at 1 MPa and 300 0C i contained in a rigid veel and i cooled to 100 0C. The quality of the mixture at the end of the proce i?
The thermal reduction of volatilizable metals like magnesium and calcium is accomplished using an upgraded retort assembly.
A high vacuum is maintained in the retort during this process, but because the retort must be heated to extremely high temperatures while also cooling the unloading end to condense the metal vapors, maintaining the vacuum is frequently challenging due to the thermal stresses involved. The retort cover, which creates the vacuum seal, encloses the extended condenser sleeve in this apparatus. Thus, the extreme thermal stresses present in earlier designs as well as the degradation of the sealing gasket brought on by the high temperatures are avoided because the seal is cooled by the fluid in the condenser sleeve.
Learn more about stresses here-
https://brainly.com/question/17252580
#SPJ4
You are asked to design a completely mixed activated sludge treatment plant with biomass recycle for a town with population of 85,000. The influent flow rate is 95 gallon/capita.day, influent BOD5 is 205 mg/L and the primary clarifier removes 34% of the influent BOD5. The discharge standard for BOD5 is 10 mg/L. The aeration tank MLSS is 4,000 mg/L, of which 72% is volatile (remember bugs are measured as MLVSS). The treatability study revealed the following kinetic coefficients. k= 4.6/day Ks= 65 mg BOD5/L Y= 0.62 mg VSS/mg BOD5 μmax= 2.8/day kd= 0.04 g VSS/g VSS.day Determine:
a. Required solids and hydraulic retention times.
b. Aeration basin volume.
c. Amount of excess sludge generated daily. d. Daily required amount of oxygen and air as volume and mass(BOD5/BODLis0.68)
e. Food to microorganism sratio.
f. Volumetric organic loading rate.
It has been investigated to remove the organic debris that naturally exists in coffee manufacturing wastewater using chemical coagulation-flocculation and advanced oxidation procedures (AOP).
It has been investigated to remove the organic debris that naturally exists in coffee manufacturing wastewater using chemical coagulation-flocculation and advanced oxidation procedures (AOP). Under acidic circumstances, the efficacy of removing natural organic matter with commercial flocculants, UV/H2O2, UV/O3, and UV/H2O2/O3 procedures was assessed. To maximize the treatment effectiveness of the coffee wastewater, several operational parameters were investigated for each of these procedures.
Low total suspended particles and a high chemical oxygen demand (COD) are characteristics of coffee wastewater. Reductions in COD, color, and turbidity were used to evaluate the effectiveness of the coagulation-flocculation and photodegradation methods used to treat coffee effluent. It was discovered that chemical coagulation-flocculation treatment of the coffee wastewater could achieve a 67% COD reduction.
To know more about AOP click here:
https://brainly.com/question/1326065
#SPJ4
concrete can take up to ~30 mpa of compressive stress. the density of concrete is about 2.4 g/cc. what is the height limit of a vertical concrete pillar, without fail on its own weight?
The maximum height shall not exceed 4 meters, while the minimum height for buildings without air conditioning is 2.75 meters.
For typical constructions, the minimum distance between columns is 2.5 meters and the maximum span is 7.5 meters. How does the cost of the construction change as the space between columns increases? The cost of the structure rises when the distance between reinforced concrete columns is increased. Most people consider L/r ratios up to 16 for columns' height to be acceptable, but in a rare instance, I once saw a structural consultant's design that had L/r ratios up to 22. L stands for free standing height. "r" refers to the column's breadth, which is its smallest lateral dimension.
Learn more about concrete here-
https://brainly.com/question/29616967
#SPJ4
g (a) what is the voltage output of a transformer used for rechargeable flashlight batteries if its primary has 515 turns, its secondary has 8 turns, and the input voltage is 114 v? v (b) what input current is required to produce a 4.00 a output? ma (c) what is the power input? w
For the given data voltage output is 2.06v,input current to get 4 A output is 0.07A and power output is 14.25j.
From equation (1) we get,
Vs=125×8/485=2.06V
Therefore the output voltage of the transformer is 2.06 V
(b)
From equation (2) we get
Ip=4×8/485=0.07A
Therefore to get an output current of 4 A, the input current should be 0.07 A.
c)
p=E/t
=114/8
power output =14.25j
The voltage that a device, like a generator or a voltage regulator, releases into the air is known as the output voltage. A constant voltage is maintained by voltage regulators. Electricity is produced by spinning turbines that interact with magnets when they are powered by a fuel source, such as sunlight, coal, or nuclear energy.
Learn more about power output here:
https://brainly.com/question/20335923
#SPJ4
dr. muldoon has been asked to conduct a transfer evaluation. what is the purpose of this type of evaluation?
The procedure by which a candidate for placement in a state treatment facility is assessed to determine whether admittance to that facility is appropriate is known as a transfer evaluation.
What is evaluation of transfer?When a person is being considered for placement in a state treatment facility, they must first undergo a transfer evaluation by a community-based public receiving facility, or by a community mental health centre or clinic if the public receiving facility is not one. This process must be approved by the department's appropriate district office.The term treatment facility refers to any state-owned, state-operated, or state-supported hospital, centre, or clinic designated by the department for additional hospitalisation and treatment of people with mental illnesses beyond what is offered by a receiving facility. This definition includes facilities operated by the US government as well as any private facility the department designates when providing such services to a person in accordance with the provisions of this part.To learn more about Health care facility refer :
https://brainly.com/question/17635022
#SPJ4
Which of the following are true regarding SNMP? (Select two.)
a. SNMPv2 requires authentication for the SNMP manager and agents to communicate with each other.
b. SNMPv2 implements encryption to obscure data during transmission.
c. SNMPv3 employs the encryption of packets to prevent unauthorized sources from snooping.
d. SNMPv2 implements message integrity verification to ensure that an SNMP packet has not been modified during transit.
d. SNMPv2c can be compromised because the community string for authentication is sent in clear text.
The encryption of packets is a technique used by SNMPv3 to stop eavesdropping by unauthorized sources. To obfuscate data during transmission, SNMPv2 employs encryption.
What purposes does SNMP serve?A networking protocol called Simple Network Management Protocol (SNMP) is used in Internet Protocol networks to manage and keep track of network-connected devices.An Internet Standard protocol called Simple Network Management Protocol is used to gather, organize, and modify data about managed devices over IP networks in order to alter device behavior.Effective switch management still frequently incorporates SNMP monitoring, which is still extensively supported. Additionally, SNMP alternatives might not be available for devices like UPSes, PDUs, printers, and IP cameras.To learn more about Simple Network Management Protocol refer to:
https://brainly.com/question/20435216
#SPJ4
The material review board at a circuit board manufacturer found that 15 percent of the diodes on the boards were inserted with the wrong polarity. the best corrective action of the following choices is
create a poka-yoke key so the diodes cannot be inserted backwards
The best corrective action of the following choices is create a poka-yoke key so the diodes cannot be inserted backwards.
What is poka-yoke technique ?Poka-Yoke makes ensuring the proper circumstances are present before a process step is carried out, avoiding errors from developing in the first place. When this isn't feasible, Poka-Yoke plays the role of a detective, finding and fixing problems as soon as they arise.The three primary forms of poka-yoke used in manufacturing for quality assurance are contact techniques, fixed-value methods, and motion-step methods. Each one can be used as a warning or a control technique. Sensing devices are used in contact techniques to determine if a product makes touch with a gadget.equipment used in the home, such as microwaves, washing machines, and dishwashers. The doors of many home appliances, including microwaves, washers, dryers, and dishwashers, contain safety features that prohibit them from operating when the door is open.Learn more about poka-yoke technique refer to :
https://brainly.com/question/14787105
#SPJ4
value engineering (ve) and value analysis (va) use the same methods, but va is performed in the design stage and ve is performed in the redesign stage.
The statement is false. Value engineering is a technique that is frequently used before a product is manufactured; value analysis is a technique that is used to analyse an existing product.
What is value engineering ?Value engineering is an organised effort aimed at analysing designed building features, systems, equipment, and material selections in order to achieve essential functions at the lowest life cycle cost while maintaining required performance, quality, reliability, and safety.While value engineering occurs earlier in the process to prevent value loss, value analysis occurs later and may be used to correct product deficiencies. Value engineering is typically used to aid manufacturing, whereas value analysis is more commonly used in the business or sales department.The process of designing a product to maximise the value received by the customer is known as value engineering. This is a careful activity that involves balancing the functions of a product with its financial considerations.To learn more about value engineering refer :
https://brainly.com/question/29330228
#SPJ4
Match the standards of ISO 9000 with the respective industry-specific interpretations of ISO 9000:
1. TickIT —> Information technology industry
2. AS9000 —> Aerospace manufactures
3. ISO/ TS 16949 —>American and European automotive manufacturers
4. TL 9000 —> Telecom consortiums
5. ISO 13485 —> Medical industry
6. ISO/ IED 90003 —> Computer software
7. ISO/ TS 29001 —> Petroleum, petrochemical, and natural gas industries
A corporation can accomplish ongoing improvement with ISO 9000 while also ensuring that customers are satisfied and that regulations are met. It need to be regarded as the foundational stage or level of a quality system.
The ISO 9000 specifications and their corresponding industry-specific interpretations:
1. TickIT —> Sector of information technology
2. AS9000 — Manufacturers of aerospace
3. ISO/ TS 16949 —>Automotive manufacturers in the United States and Europe
4. Telecom consortiums (TL 9000)
5. The medical industry and ISO 13485
6. ISO/ IED 90003 — Software for computers
7. ISO/ TS 29001 —> Petrochemical, natural gas, and petroleum industries.
An effective way for businesses to document the components of their quality systems is by using ISO 9000, a set of international standards on quality management and quality assurance. They can be used by organizations of any size and are not exclusive to any one sector of the economy.
30 years of ISO 9000 resources for ISO 9000: ISO 9000 vs. 9001
An individual standard within the family of quality management standards known as ISO 9000 is ISO 9001. Another member of the ISO 9000 family of standards is the ISO 9000 particular standard. The foundations and terminology for quality management systems are laid out in this standard (QMS).
To know more about ISO 9000 click here:
https://brainly.com/question/13483887
#SPJ4
suppose a liquid level from 5.5 to 8.6 m is linearly converted to pneumatic pressure from 3 to 15 psi. what pressure will result from a level of 7.2 m? what level does a pressure of 4.7 psi represent? (linear transfer function, 4 pts)
Pressure will result from a level of h= 7.2m then P = 9.58 psi and P=4.7 psi for h=5.94 m.
The pressure Pon a static liquid level h is
P= p₀ + ρ*g*h
p₀ is the initial pressure , ρ=density , g is the gravity
ΔP= ρ*g*Δh → ΔP/Δh
= density *gravity = ( 15 psi - 3 psi) /( 8.6 m - 5.5 m)
= 12/3.1 psi/m
P = P₁ + ΔP/Δh*(h -h₁)
P₁ = 3 & h₁= 5.5 m when height is 7.2 m
P = 3 psi + 12/3.1 psi/m *(7.2 m -5.5 m) = 9.58 psi
P = 9.58 when height is 7.2 m
P=4.7 psi
4.7 psi = 3 psi + 12/3.1 psi/m *(h -5.5 m)
h = (4.7 psi - 3 psi)/ (12/3.1 psi/m) + 5.5 m = 5.94 m
then P=4.7 psi for h=5.94 m.
Learn more about pressure here:
https://brainly.com/question/28012687
#SPJ4
At temperatures near room temperature, the temperature dependence of the conductivity for intrinsic germanium is found to equal σ = 5= CT-3/2 exp (-Eg/2kT) where C is a temperature-independent constant and T is in Kelvins. Using Equation, calculate the intrinsic electrical conductivity of germanium at 140°C. Assume Eg=0. 67 eV and room-temperature (298 K) conductivity o=2. 2 (12-m)-1. 73. 595 (12-m)-1
The intrinsic electrical conductivity of germanium at 140°C, σ = 838.268 Ω/m²
What is germanium?In the periodic table's Group 14 (IVa), germanium (Ge), a silvery-gray metalloid with properties intermediate between those of metals and nonmetals, is a chemical element that lies between silicon and tin.
German chemist Clemens Winkler made the discovery of germanium in 1886; however, Russian chemist Dmitry Ivanovich Mendeleyev had predicted the existence, characteristics, and position of germanium in the periodic table back in 1871 under the name ekasilicon.
(Winkler gave the element the name germanium, a translation of the Latin word Germania, meaning "Germany"). The value of germanium's properties as a semiconductor in electronics was not realized until after 1945, at which point the metal's economic significance began to grow.
Learn more about germanium
https://brainly.com/question/2889644
#SPJ4
if u(t) is a periodic signal with fundamental period t and fourier series coefficients ck u(t) ca nbe represented as write the fourier series coefficient of the signal
[tex]2\cos\left({\frac{{2\pi }}{T}K{t_0}}\right)X\left[ K \right][/tex] is the Fourier series coefficient of the signal. A Fourier series is a collection of sinusoidal functions with harmonic relationships, commonly referred to as components or harmonics.
What is Fourier series ?A Fourier series is a collection of sinusoidal functions with harmonic relationships, commonly referred to as components or harmonics.
A periodic function is the end result of the summation, and its functional form depends on the choices made regarding the cycle length, the quantity of components, and the amplitudes and phase parameters of those components.
We can use a combination of sines and cosines to model any periodic signal using the Fourier Series.
x(t-to) will also have time period T.
Let Fourier series coefficient of x(t - to) be x1(k)
X₁ [k] = [tex]\frac{1}{T}\mathop \smallint \limits_T x\left({t {t_0}} \right){e^{- jk{\omega_o}t}}dt[/tex]
[tex]= \frac{{{e^{ - je\omega {t_0}}}}} {T}\mathop \smallint \nolimits^ x\left( \right){e^{- jk{\omega_0}t }}dt[/tex]
Taking t - to = T, we get:
[tex]= {e^{-{\rm{jk\omega }}{{\rm{t}}_0}}}X\left[ k \right][/tex]
Now, if the Fourier series coefficient of x(t + to) be X2 [k], we can write:
[tex]{X_2}\left[ k \right] = {e^{jk\omega {t_0}}}X\left[ k \right][/tex]
Now X1 [k] + X2 [k]
[tex]= \left( {{e^{- jk\omega {t_0}}} + {e^{- jk\omega (t_0}}}} \right)X\left[ k \right][/tex]
[tex]= 2\cos k\omega {t_0}x\left[ k \right][/tex]
[tex]= 2\cos\left({\frac{{2\pi }}{T}k{t_0}} \right)X\left[ k \right][/tex]
To learn more about Fourier series refer :
https://brainly.com/question/14949932
#SPJ4
1. (4 pts) where and how would a stress concentration occur? make drawing to illustrate some cases. 2. (4 pts) how stress concentration factor is generally defined? what are the variations? 3. (2 pts) why are the effects of stress concentrations less significant for static loading of ductile materials?
A point in the part's design where stress is significantly higher than in the surrounding area is referred to as a stress concentration.
How would a stress concentration occur?A point in the part's design where stress is significantly higher than in the surrounding area is referred to as a stress concentration. The most frequent source of stress concentrations in a part is an abrupt change in its geometry, which typically occurs around sharp corners, holes, notches, or grooves.
How stress concentration factor is defined ?The ratio of the maximum stress to the nominal or reference stress, known as the "stress concentration factor," or Kt, quantifies the amount of stress present in a component. In order to reduce stress concentration in machine parts, a smooth path for stress to flow through the component is typically provided. There are a number of ways to accomplish this, such as by reducing sharp corners and adding relief notches.
To learn more about Stress concentration refer to :
https://brainly.com/question/13440326
#SPJ1
Consider a variation of the fully developed Couette flow problem of Prob. 7-52-flow between two infinite parallel plates separated by distance
h
, with the top plate moving at speed
V top
and the bottom plate moving at speed
V bottom
as illustrated in Fig. P7-107. The flow is steady, incompressible, and two-dimensional in the
xy
-plane. Generate a dimensionless relationship for the
x
-component of fluid velocity
u
as a function of fluid viscosity
μ
, plate speeds
V top
and
V bottom
, distance
h
, fluid density
rho
, and distance
y
. (Hint: Think carefully about the list of parameters before rushing into the algebra.) FIGURE P7-107
List of parameters before diving headfirst into algebra flow between two infinite parallel plates that are spaced apart derived from newtons law of viscosity that value is 26.4 N/m².
Acoording to newtons law of viscosity
T=μdu/dy
T=μv/y
y is 50 mm = 0.05 m,v=3m/s,μ =0.44 kg /ms
T=0.44*3/0.05=26.4 N/m²
Since its molecular structure causes very little friction when it is in motion, a fluid with low viscosity flows effortlessly. Viscosity is the term used to describe the degree of motion resistance found in most fluids. When fluid layers move relative to one another, viscosity develops. It measures flow resistance that results from internal friction between the fluid layers as they pass one another during fluid flow.
Learn more about viscosity here:
https://brainly.com/question/13385698
#SPJ4