Technician A says that the transmission hydraulic pump operates only when the vehicle is in motion. Technician B says that the transmission hydraulic pump operates when the engine is running. Which technician is correct?

Answer:

No, you cannot add the ceiling fan to the circuit.

Explanation:

120V/60W=0.5A (V/W=A)

0.5A*4=2A (you have 4 60W lamps)

2A+1.6A=3.6A

3.6Ax0.125=0.45A (continuous load appliances must have amperage rated at 125% according to USA NFPA 70)

0.45A+3.6A=4.05A

4.05A+8.6A=12.65A

Assuming all devices on the circuit are ON, there would be a total current draw of 12.65A (after adding the ceiling fan). 80% of 15A is 12A.

The covers and guardrails are required in all of the following areas except ditches.

Yes, they do need a covers and/or guardrails and it is one that is known or shall be provided to help in the protection of personnel from the hazards that pertains to open pits, tanks, vats and others.

Note that they are often needed that is covers and/or guardrails need to be provided to help to protect personnel.

Therefore, The covers and guardrails are required in all of the following areas except ditches.

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Answer:

Yes all the time

Explanation:

Answer:

Check the explanation

Explanation:

Kindly check the attached image below to see the step by step explanation to the question above.

Answer: True

Explanation:

The statement that "a masonry chimney should be braced with horizontal metal straps every few feet against the structure and into reinforced points such as wall studs to stabilize the chimney from the shaking force of an earthquake" is true.

In a scenario whereby the chimney isn't braced with the horizontal metal straps every few feet, this can lead to its collapse in case of an earthquake. Therefore, the correct option is "true".

The system automatically can communicate with each other and adjust system operation to match the heat load and operating conditions.

What is system operation?
System operation is the process of managing, controlling, and monitoring the operations of a computer system or network. It encompasses the planning and implementation of system operations, including the coordination of hardware, software, and communication components. System operation includes activities such as system configuration, system monitoring, performance tuning, system backup, system recovery, and system maintenance. System operation ensures that the system or network is secure, reliable, and available to users. It also involves troubleshooting and responding to incidents, analyzing system performance, and identifying areas for improvement. System operation is critical to the success of any organization, as it ensures the availability, reliability, and security of the system or network.

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The quartiles divide a set of observations into four portions, each representing 25% of the observations, together with the minimum and maximum values of the data set. The interquartile range, a measurement of variation around the median, is calculated using quartiles.

Statistical file: {2, -6, 5}

Quartile Q1: -6

Quartile Q2: 2

Quartile Q3: 5.

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Answer:

There are three common methods of charging a battery; constant voltage, constant current and a combination of constant voltage/constant current with or without a smart charging circuit.

Constant voltage allows the full current of the charger to flow into the battery until the power supply reaches its pre-set voltage.  The current will then taper down to a minimum value once that voltage level is reached.  The battery can be left connected to the charger until ready for use and will remain at that “float voltage”, trickle charging to compensate for normal battery self-discharge.

Constant current is a simple form of charging batteries, with the current level set at approximately 10% of the maximum battery rating.  Charge times are relatively long with the disadvantage that the battery may overheat if it is over-charged, leading to premature battery replacement.  This method is suitable for Ni-MH type of batteries.  The battery must be disconnected, or a timer function used once charged.

Constant voltage / constant current (CVCC) is a combination of the above two methods.  The charger limits the amount of current to a pre-set level until the battery reaches a pre-set voltage level.  The current then reduces as the battery becomes fully charged.  The lead acid battery uses the constant current constant voltage (CC/CV) charge method. A regulated current raises the terminal voltage until the upper charge voltage limit is reached, at which point the current drops due to saturation.

The correct anwser is that this does not exceed the overall off the top of renewable of the heat box.

Renewable Insulation introductionThe largest amount of energy consumed within the average home is related tomaintaining adequate climate control through heating and cooling systems. Toconserve energy and decrease expenses associated with climate control, properhome insulation techniques are required. Insulation technologies relating tomaterials and application have advanced throughout the home building industry withtime. The home building industry once relied on straw and newspaper for insulatingmaterial. The industry currently utilizes technology such as fiberglass and blownexpandable foam. Insulation material advancement is driven by consumersdemanding insulation material designed for high insulation value along with positiveoccupant health and environmental impact.

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Answer: the shear strength at a depth of 12 ft is 1034.9015 lb/ft²

Explanation:

Given that;

Weight of soil r = 118 lb/ft³

stress parameter C = 250 lb/ft²

φ total = 29°

depth Z = 12 ft

The shear strength on a horizontal plane at a depth of 12ft

ζ = C + δtanφ

where δ = normal stress

normal stress δ = r × z = 118 × 12 = 1416

so

ζ = C + δtanφ

ζ = 250 + 1416(tan29°)

ζ = 250 + 1416(tan29°)

ζ = 250 + 784.9016

ζ = 1034.9015 lb/ft²

Therefore the shear strength at a depth of 12 ft is 1034.9015 lb/ft²

The two duct connection combinations for a package unit are upflow and downflow.

An upflow duct connection is when the air handler is located in the basement or crawlspace and the ducts are run through the floor to distribute the conditioned air. A downflow duct connection is when the air handler is located in the attic and the ducts are run through the ceiling to distribute the conditioned air. These two types of duct connections are used in different situations depending on the layout of the home and the location of the package unit. Horizontal supply and return ducts are also a possible configurations, but they are less common in package unit installations.

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Tech A says that unitized hubs have a wheel nut with a higher installation torque than serviceable wheel bearings. Tech B says that unitized hubs have the proper bearing end play designed into the assembly once they are torqued properly is Option C: Both a and b

When compared to manually adjusted, PreSet, or LMS hub assemblies, unitized hub assemblies often require a lot more assembly torque and special spindle nut systems.

Therefore, An essential component of the wheel assembly that connects the wheel to the axle is a wheel bearing. A metal ring is used to hold a group of steel balls (also known as ball bearings) or taper (also known as tapered bearings) together. It permits the wheel to spin easily and with little resistance.

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To determine the load P in the strap, the closest response to our calculation is (d) 1080 lb.

To determine the load P in the strap, we need to use the principles of statics. The sum of all forces in the vertical direction must be zero, since the strap is not moving up or down. We can draw a free-body diagram of the strap, with the weight of 3,900 lb acting downwards at the center of the strap. The two lengths of 4.5 ft act as a horizontal beam, with the load P acting upwards somewhere along the beam. We can use the principle of moments to find the position of the load P. Taking moments about one end of the beam, we have: P x 4.5 = 3,900 x 2.25. Solving for P, we get: P = (3,900 x 2.25) / 4.5 = 1,950 lb. Therefore, the closest response to our calculation is (d) 1080 lb.

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Answer:

Solvents can damage certain plastics and rubbers found in the engine

Explanation:

The statement is TRUE. The use of 802.1x alone cannot prevent rogue access points and other unauthorized devices from becoming insecure backdoors.

802.1x is an authentication protocol that provides port-based access control to secure network connections. It ensures that only authorized devices can connect to a network. However, 802.1x focuses on authentication and access control at the network level, rather than specifically targeting rogue access points or unauthorized devices.

To prevent rogue access points and unauthorized devices from becoming insecure backdoors, additional security measures such as regular network monitoring, intrusion detection systems, network segmentation, and strong security policies should be implemented. These measures help identify and mitigate any unauthorized devices or potential security threats within the network.

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Eclipsing stars have orbital planes that are parallel to the sky's plane. Since the length of ingress and the length of the eclipse rely on the disparity in the diameters of the stars

The orbital inclination over which eclipses can occur depends on the relative diameters of the stars, but in general, only a tiny percentage of the known binary systems will be observed to experience eclipses. The varying light has two functions. Since the length of ingress and the length of the eclipse rely on the disparity in the diameters of the stars, it enables the estimation of the respective radii of the stars. That is, if Δt1 is the total time between first and last contact, and Δt2 is the period of totality, assuming that the eclipse is annular or total, then.

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Answer:

This is not an engineering question.

Explanation:

To calculate the properties of the isothermal expansion of a van der Waals (vdW) gas, we need to consider the equation of state for the vdW gas and apply it to the given scenario. The vdW equation of state is given by:

[P + a/V^2] (V - b) = RT

Where P is the pressure, V is the volume, T is the temperature, R is the gas constant, and a and b are constants specific to the gas.

Given that the expansion is isothermal, the temperature T remains constant throughout the process. We are given the initial volume V1 and the final volume V2. Let's calculate the properties:

1. Pressure:

To calculate the pressure at the initial volume V1, we rearrange the vdW equation of state:

P1 = (RT)/(V1 - b) - (a/V1^2)

To calculate the pressure at the final volume V2:

P2 = (RT)/(V2 - b) - (a/V2^2)

2. Work Done:

The work done during the isothermal expansion can be calculated using the formula:

W = ∫(PdV) from V1 to V2

We can substitute the expression for pressure from the vdW equation and integrate to calculate the work done.

3. Change in Internal Energy:

Since the process is isothermal, the change in internal energy (ΔU) of the gas is zero. This is because the temperature remains constant, and internal energy depends only on temperature for an ideal gas.

4. Heat Transfer:

Since the process is isothermal, the heat transfer (Q) can be calculated using the equation:

Q = ΔU + W

Since ΔU is zero, the heat transfer is equal to the work done.

These calculations involve integration and substitution of the given values into the equations. The specific values of a and b for the vdW gas need to be provided to obtain accurate results.

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Based on the analysis, it is not financially beneficial for Janko Wellspring Inc. to replace the old pump.

To determine whether Janko Wellspring Inc. should replace the old pump with a new one, we need to compare the costs and benefits associated with each option. Let's go through the steps:

Step 1: Calculate the net book value of the old pump. Since the book value is given as $27,000 and the remaining life is 4 years, the annual depreciation expense would be $27,000 / 4 = $6,750. Therefore, the net book value of the old pump is $27,000 - ($6,750 x 4) = $27,000 - $27,000 = $0.

Step 2: Calculate the total cash outflow for the new pump. This includes the cost of the new pump minus the trade-in value for the old pump. The total cash outflow is $48,000 - $8,300 = $39,700.

Step 3: Calculate the total savings from reduced variable costs over the four-year life of the new pump. The annual savings is given as $11,200, so the total savings would be $11,200 x 4 = $44,800.

Step 4: Calculate the net cash flow by subtracting the total savings from the total cash outflow. The net cash flow is $39,700 - $44,800 = -$5,100.

Step 5: Analyze the net cash flow. A negative net cash flow means that the cost of the new pump exceeds the savings generated. In this case, since the net cash flow is negative, it suggests that it may not be financially beneficial to replace the old pump with a new one.

Based on the analysis, it does not appear favorable for Janko Wellspring Inc. to replace the old pump with the new one. The negative net cash flow indicates that the costs outweigh the benefits, and it would be more cost-effective to continue using the old pump until its useful life is fully exhausted.

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Answer:

Cement is largely made up of calcium oxide. Cement can harden in the gastrointestinal tract and cause obstruction. Inhaling cement dust can cause coughing, wheezing, and difficulty breathing. The best prevention is to avoid or limit contact with cement.

Explanation:

Answer:

yes it is very hard you should find a reccomended doctor to aid in your situation. But in the meantime how about you give me that lil brainliest thingy :p

(a) The active part of the inflow expands its cross-section as it passes the tidal turbine due to conservation of mass and energy.

(b) Several reasons contribute to the theoretical maximum efficiency not being achieved in practical tidal turbine deployments, including turbulence, non-uniform flow, and mechanical losses.

(c) Estimating the total fluid loading on the Alstom 1.4 MW OceadeTM turbine requires considering the flow velocity, rotor and tower dimensions, and making assumptions about the flow characteristics and structural properties.

(d) The estimates of forces obtained from the fluid loading calculations are essential for designing the turbine and tower structure by ensuring that they can withstand the anticipated loads and stresses.

(a) The active part of the inflow expands its cross-section as it passes the tidal turbine due to the principle of conservation of mass and energy. As the tidal flow encounters the turbine rotor, some of the kinetic energy of the flow is converted into mechanical energy to drive the turbine. To satisfy the conservation of mass, the cross-sectional area of the flow must increase to compensate for the reduction in flow velocity caused by energy extraction.

(b) Achieving the theoretical maximum efficiency in practical tidal turbine deployments is challenging due to several reasons. First, tidal flows are often characterized by turbulence, which disrupts the uniformity of the flow and reduces overall efficiency. Second, tidal flow itself is not uniformly distributed, and the flow characteristics vary with tidal cycles, further impacting efficiency. Lastly, mechanical losses in the turbine's components, such as friction and resistance, reduce the efficiency of energy conversion.

(c) Estimating the total fluid loading on the Alstom 1.4 MW OceadeTM turbine involves considering the flow velocity, rotor diameter, and tower dimensions. Assuming a tidal flow velocity of 3 m/s, the fluid loading can be estimated by considering the momentum change and forces acting on the rotor and tower surfaces. Assumptions may include a simplified flow model, neglecting factors such as turbulence and non-uniform flow, and assuming a stationary tower. These assumptions simplify the calculation while providing a reasonable estimate of the fluid loading.

(d) The estimates of forces obtained from the fluid loading calculations are crucial for designing the turbine and tower structure. These estimates help engineers determine the required structural strength, material selection, and design considerations to ensure that the turbine and tower can withstand the anticipated fluid forces and mechanical stresses. By considering the estimated forces, designers can optimize the structural integrity, stability, and reliability of the turbine and tower, ensuring safe and efficient operation in tidal environments.

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Assuming that cell B5 contains the sales amount for the first salesperson, the IFS function to determine the commission rate in cell C5 is:

=IFS(B5>35000, 0.05, B5>25000, 0.04, B5>0, 0.02)

This formula checks the sales amount in B5 against each threshold amount in descending order (starting with $35,000), and returns the corresponding bonus rate if the sales amount is greater than that threshold. If the sales amount is less than or equal to zero, it returns a bonus rate of 0%.

To fill the formula down through cell C8, select cell C5 and drag the fill handle down to cell C8. This will copy the formula to the other cells in the group, adjusting the cell references as needed.

It is to be noted that all UHRS platforms are optimized for the popular kinds of internet browser applications.

The Universal Human Relevance System (UHRS) is a crowdsourcing platform that allows for data labeling for a variety of AI application situations.

Vendor partners link people referred to as "judges" to offer data labeling at scale for us. All UHRS judges are bound by an NDA, ensuring that data is kept protected.

A browser is a software tool that allows you to see and interact with all of the knowledgeon the World Wide Web. Web sites, movies, and photos are all examples of this.

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The rate at which the radius of the drop decreases can be expressed as -(η/C)(T-T_o).

What is radius?
Radius is a term used in geometry to describe the distance from the center of a circle to any point on its circumference. It is also used to describe the distance from the center of a sphere to any point on its surface. By definition, the radius of a circle is always equal to half of its diameter. The radius of a sphere is the distance between its center and its surface. The radius is a fundamental concept in geometry, and it is used to calculate the area and circumference of circles and the surface area and volume of spheres.

A spherical drop of wax is immersed in liquid wax and allowed to cool.
Part a: Find an expression for the rate at which the radius of the drop decreases as a function of time.
Solution: The rate at which the radius of the drop decreases is given by Newton's Law of Cooling:
Rate = -k(T-T_o)
where k is the thermal diffusivity of the wax, T is the temperature of the drop, and T_o is the temperature of the surrounding liquid wax. Assuming that the wax is Newtonian, the thermal diffusivity k can be found from the dynamic viscosity η and specific heat capacity C via
k = η/C.
Therefore, the rate at which the radius of the drop decreases can be expressed as
Rate = -(η/C)(T-T_o).

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When one tapered board edge is butted up against the other tapered plank edge, the long edge of a board forms a hollow area or depression that will be closed in with joint cement and tape to level the surface.

Edge computing, or simply "edge," relocates computer computation and storage (now frequently referred to as "compute") to the network's periphery. Most importantly, it is here that it is as near as it can be to data sources, consumers, and devices.

Edge computing's goal is to move your apps closer to the locations where data is generated and where action must be taken. You can get a much quicker answer by doing this.

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