Mr. Platinum's pumping system at Kagera comprises two water storage tanks. The reserve tank is located in the ground floor and the supply tank on the yop
floor. An optimum starting and high running performance capacitor type single phase induction motor is used as a water pumpwith several level sensors to augomate water pumping system. Design an automatic water pumping system comprising the the following features.
- Typical layout of the water pumping system
- Power and control circuit diagrams
- Relevant warning signal indicators
- safe protection devices
NOTE: Only one neutral terminal is available in the motor terminal block.

19.15JK−1mol−1 is the change in entropy due to the expansion of 1 mole of an ideal gas at 25oC is subjected to expand reversibly ten times of its initial volume.

Entropy is a notion in science and a quantifiable physical characteristic that is frequently connected to a condition of disorder, unpredictability, or uncertainty. The phrase and its underlying idea are employed in a wide range of disciplines, from classical thermodynamics—where they were initially identified—through statistical physics, which uses them to describe nature at the molecular level, to the foundations of information theory. It has numerous applications in physics and chemistry, biological systems and how they relate to life, cosmology, economics, sociology, weather science, the study of climate change, and information systems, particularly the transfer of information via telecommunication. Scottish engineer and scientist William Rankine first used the terms thermodynamic function and heat potential to describe the thermodynamic notion in 1850.

learn more about Entropy here:

https://brainly.com/question/20166134

#SPJ4

The  difference in voltage across the two loads is 6 V.

In a series circuit, the total resistance is equal to the sum of the individual resistances. In this case, the total resistance of the circuit is 2 Ω + 4 Ω = 6 Ω.

The current in a series circuit is the same through all of the loads. This means that the same amount of voltage is dropped across each load. Since the power source has a voltage of 12 V, and the total resistance of the circuit is 6 Ω, the current in the circuit can be calculated using Ohm's Law:

I = V/R

= 12 V / 6 Ω

= 2 A.

Since the same current flows through both loads and the same amount of voltage is dropped across each load, there is no difference in voltage across the two loads. Both loads experience a voltage drop of:

12 V / 2

= 6 V.

Learn more about series circuit from

https://brainly.com/question/24707814
#SPJ1

Answer:

1/6

Explanation:

A dice has 6 sides, the probability of 4 appearing is 1/6.

Answer:

It is A. B. and C.

Explanation:

Hope this helps

Main Answer:

The Bureau of Indian standards developed the national electric code, the national building code, and the national fire prevention code.

Sub heading:

explain BIS?

Explanation:

1.BIS-bureau of indian standard is the national standard body of india.

2.BIS is responbility for the harmonious deve;opment of the activities of standardization.marking .

Reference link:

https://brainly.com

Hashtag:

#SPJ4

According to the statement the vertical section at the survey station is -8160.8 ft.

The vertical section at the survey station can be determined by using the formula:Vertical section = (north departure) × (tan azimuth) - (east departure) × (cot azimuth)

where "north departure" refers to the distance traveled in the north direction, "east departure" refers to the distance traveled in the east direction, and "azimuth" refers to the angle between the target point and the north direction in degrees.

Using the given values of north departure, east departure, and azimuth, we get:

Vertical section = (3000 ft) × (tan 24.9°) - (5000 ft) × (cot 24.9°)

Vertical section = (3000 ft) × (0.4794) - (5000 ft) × (1.9198)

Vertical section = 1438.2 ft - 9599 ft

Vertical section = -8160.8 ft (rounded to one decimal place)

Therefore, the vertical section at the survey station is -8160.8 ft.

Since the vertical section is negative, this means that the target point is lower in elevation than the survey station.

To know more about azimuth visit :

https://brainly.com/question/30663719

#SPJ11

Answer:

z=X=c+J=A

Explanation:

In Stokes flow, the fluid velocity is proportional to the forces acting on the fluid and the fluid is assumed to be viscous and incompressible. The fluid velocity near a rotating sphere in Stokes flow can be determined using the equations of fluid dynamics.

Kinematic reversibility is a property of Stokes flow, which states that the fluid flow is symmetric with respect to time reversal. This means that if the fluid velocity is recorded at a certain time, then the same velocity field will be obtained if time is reversed and the flow is replayed in the reverse direction.

When a sphere is rotating near a wall, the flow of fluid around the sphere creates a velocity field that pushes the sphere away from the wall. This flow can be considered as the fluid being pushed away from the sphere and towards the wall. If the flow is time-reversed, the fluid velocity field would be the same, but the direction of the velocity would be reversed. This means that the fluid would be drawn towards the sphere and away from the wall, pulling the sphere towards the wall.

Therefore, based on the property of kinematic reversibility in Stokes flow, the rotating sphere near a wall will experience a force that could either push it away from the wall or draw it towards the wall, depending on the direction of the flow.

Learn more about reversibility from

https://brainly.com/question/3454191

#SPJ1

The duty ratio is the ratio of the amount of energy extracted by the turbine to the amount of energy input to the system. The power output is the rate at which work is done by the system.

To determine the duty ratio, we need to calculate the amount of energy extracted by the turbine and the amount of energy input to the system.  First, we need to calculate the temperature and pressure at the end of each compression stage. Since the operations are isentropic, we can use the isentropic relations. Let's assume the initial conditions at the compressor inlet are

P1 = 101.325 kPa and

T1 = 25°C.

We know that the pressure ratio across each compressor stage is 3. So the pressure at the end of the first compression stage (P2) will be

P2 = 3 * P1.

Using the isentropic relation for compression, we can calculate the temperature at the end of the first compression stage (T2):

T2 = T1 * (P2/P1)^((k-1)/k)

where k is the specific heat ratio of the air. Assuming constant specific heats at room temperature,

k = 1.4.

Similarly, we can calculate the pressure and temperature at the end of the second compression stage (P3 and T3) using the pressure ratio of 3. Next, we need to calculate the temperature and pressure at the end of each expansion stage. Again, we can use the isentropic relations.

To know more about power output visit:

https://brainly.com/question/33774652

#SPJ11

When incoming traffic is halted and a special left-turn signal, green arrow, or delayed green light allows you to turn left. shows that one side of an intersection has a green light while the oncoming traffic light is still in the red.

A protected left turn is one that is permitted at an intersection with a left-turn signal, a green arrow, or a delayed green light. The right answer is A. when a special left-turn signal, green tick, or delayed green light allows you to make a left turn while oncoming traffic is stopped. shows that a crossroads has a green arrow on one side and a red light on the other.

When a green indicator is pointing downhill steadily, it means that the lane is open for driving. Drivers should get ready to evacuate if they see a continuous YELLOW X signal, which signifies that the lane it is over is about to close to traffic. If there is a steady green arrow, it means you can turn in that direction.

To know more about green arrow click here:

https://brainly.com/question/11302853

#SPJ4

Answer:

The answer is VN =37.416 m/s

Explanation:

Recall that:

Pressure (atmospheric) = 100 kPa

So. we solve for the maximum velocity (m/s) to which water can be accelerated by the nozzles

Now,

Pabs =Patm + Pgauge = 800 KN/m²

Thus

PT/9.81 + VT²/2g =PN/9.81  + VN²/2g

Here

Acceleration due to gravity = 9.81 m/s

800/9.81 + 0

= 100/9.81 + VN²/19.62

Here,

9.81 * 2= 19.62

Thus,

VN²/19.62 = 700/9.81

So,

VN² =1400

VN =37.416 m/s

Note: (800 - 100) = 700

Answer:

\(V2 = 37.417ms^{-1}\)

Explanation:

Given the following data;

Water enters the turbine nozzles (inlet) = 800kPa = 800000pa.

Nozzle outlets = 100kPa = 100000pa.

Density of water = 1000kg/m³.

We would apply, the Bernoulli equation between the inlet and outlet;

\(\frac{P_{1} }{d}+\frac{V1^{2} }{2} +gz_{1} = \frac{P_{2} }{d}+\frac{V2^{2} }{2} +gz_{2}\)

Where, V1 is approximately equal to zero(0).

Z\(z_{1} = z_{2}\)

Therefore, to find the maximum velocity, V2;

\(V2 = \sqrt{2(\frac{P_{1} }{d}-\frac{P_{2} }{d}) }\)

\(V2 = \sqrt{2(\frac{800000}{1000}-\frac{100000}{1000}) }\)

\(V2 = \sqrt{2(800-100)}\)

\(V2 = \sqrt{2(700)}\)

\(V2 = \sqrt{1400}\)

\(V2 = 37.417ms^{-1}\)

Hence, the maximum velocity, V2 is 37.417m/s

The poor hardness and relatively low fatigue strength of commonly used austenitic stainless steels are their drawbacks.

These steels are not suited for conventional chemical-thermal surface treatments because they foster intergranular corrosion. A low-temperature surface treatment that induces an S-phase in the surface layer is a good substitute but has a high cost/quality ratio. Surface cold working of austenitic steels can boost their surface micro-hardness and fatigue strength. Diamond burnishing (DB) has significant potential to increase the rotating bending fatigue strength of austenitic chromium-nickel steels and, based on the cost/quality ratio, can effectively compete with low-temperature chemical-thermal treatments when the goal is to increase the fatigue strength and when the requirements for significant wear resistance are not paramount.

Learn more about strength here-

https://brainly.com/question/17094628

#SPJ4

Answer:

... you gotta do divson?

Explanation:

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

The cylinder, motor, or rotary actuator of a fluid power device is supplied with pressurized fluid by a pump.

The cylinder, motor, or rotary actuator of a fluid power device is supplied with pressurized fluid by a pump. Variable flow rates from the pump or through valves inside the fluid power circuit are used to control output speed and direction.

are utilized in a range of applications, including heavy machinery, robotics, and automotive braking systems. Using either hydraulic or pneumatic cylinders, these devices generate linear motion.

When compared to other conventional power-transmission methods, fluid power has the highest power density. Fluid power systems can be divided into two categories: pneumatic and hydraulic. Pneumatic systems employ neutral gases like air, whereas hydraulic systems use liquids like water and oil.

Therefore, the correct answer is option a) Control System.

To learn more about fluid power refer to:

https://brainly.com/question/22590501

#SPJ4

Answer:

A periodic function is a function that returns to its value over a certain period at regular intervals an example is the wave form of flux density (B) = sin wt

Explanation:

A periodic function is a function that returns to its value over a certain period at regular intervals an example is the wave form of flux density (B) = sin wt

attached to the answer is a free plot of the output starting with zero degree for one coil rotating in a uniform magnetic field

B ( wave flux density ) = Bm sinwt  and w = 2\(\pi\)f = \(\frac{2\pi }{T}\) rad/sec

To achieve 100% statement coverage, additional tests are needed to cover different combinations of drink preferences (milk and sugar). For 100% decision coverage, tests should cover both the selection of drink type and the decisions related to adding milk and sugar.

a. Control Flow Diagram:

Start

|

V

Choose Drink Type (Hot or Cold)

|

V

IF Hot Drink

|   |

|   V

|   Ask for Milk Preference

|   |

|   V

|   IF Milk Required

|   |   |

|   |   V

|   |   Add Milk

|   |   |

|   |   V

|   |   Ask for Sugar Preference

|   |   |

|   |   V

|   |   IF Sugar Required

|   |   |   |

|   |   |   V

|   |   |   Add Sugar

|   |   |   |

|   |   |   V

|   |   V

|   V

|   Dispense Hot Drink

|

V

ELSE (Cold Drink)

   |

   V

   Dispense Cold Drink

|

V

End

b. Given the tests:

Test 1: Cold drink

Test 2: Hot drink with milk and sugar

Statement Coverage achieved: The statement coverage achieved would be 10 out of 15 statements (66.7%).

Decision Coverage achieved: The decision coverage achieved would be 2 out of 3 decisions (66.7%).

c. Additional tests for 100% statement coverage:

Test 3: Hot drink without milk and sugar

Test 4: Hot drink with milk only

Test 5: Hot drink with sugar only

Test 6: Hot drink without milk and without sugar

Additional tests for 100% decision coverage:

Test 7: Cold drink

Test 8: Hot drink with milk and sugar

Test 9: Hot drink without milk and sugar

For more such questions on combinations visit:

https://brainly.com/question/31277307

#SPJ8

Answer:

The one end of a hollow square bar whose side is (10+N/100)  in with (1+N/100)  in thickness is under a tensile stress 102,500 psi and the other end is connected with a U bracket using a double-pin system. Find the minimum diameter of pin is used according to shear strength. Take the factor of safety as 1.5 and σ_all=243 ksi for pin material.

Explanation:

The critical crack length for a through crack in a thick plate of 7150-T651 aluminum alloy under uniaxial tension can be determined using fracture mechanics principles. For this particular alloy, the fracture toughness (Kic) is given as 25.5 MPa√m, and the ultimate tensile strength (σf) is 400 MPa.

By assuming a yield strength (Y) equal to the square root of pi, the critical crack length can be calculated.

Fracture mechanics is a field of study that deals with the behavior of materials when subjected to cracks or flaws. The critical crack length represents the maximum allowable size of a crack within a material before it fails catastrophically. In this case, we are considering a through crack in a thick plate of 7150-T651 aluminum alloy that is subjected to uniaxial tension.

To determine the critical crack length, we need to use the fracture toughness value (Kic) and the ultimate tensile strength (σf) of the material. The fracture toughness measures a material's resistance to crack propagation, and it is given as 25.5 MPa√m for this particular aluminum alloy. The ultimate tensile strength represents the maximum stress the material can withstand before failure, and it is specified as 400 MPa.

In fracture mechanics, the critical crack length can be calculated using the equation:

a = (Kic / (Y * σf))²

Here, Y represents the yield strength of the material. In this case, Y is assumed to be equal to the square root of pi (√π). By substituting the given values into the equation, we can determine the critical crack length for the 7150-T651 aluminum alloy under uniaxial tension.

The calculation of the critical crack length will provide a value in terms of the crack size (a). This value represents the maximum allowable crack length before failure occurs. It is crucial to consider the critical crack length in engineering applications to ensure the structural integrity and safety of components made from the aluminum alloy.

Learn more about crack here: brainly.com/question/33661414

#SPJ11

Answer:

Resistance = 3 Ω

Explanation:

As we know that, By Ohm's Law

V = IR

where

V is the voltage in volt

I is the current in amps

R is the resistance in ohm

Now,

Given that,

V = 15 volts

I = 5 amps

So,

R = V/I

  = 15/5

 = 3 Ω

⇒R = 3 Ω

Yes, in SolidWorks, you can fully define the shape and size of a sketch using only dimensions and geometric relations.

These dimensions and relations allow you to control the exact placement and orientation of each element within the sketch, ensuring that it meets your design requirements. By defining the sketch in this way, you can easily make changes to the design by simply adjusting the dimensions and relations, rather than having to recreate the entire sketch from scratch. This makes SolidWorks a powerful tool for creating precise and accurate 3D models.

To learn more about geometric relations visit;

https://brainly.com/question/15069391

#SPJ11

Technician A and Technician B are correct in their assessments. A restricted vacuum feed hose can cause loss of Braking assistance after several quick brake applications, and brake fluid in the vacuum feed hose can indicate a leaking master cylinder seal.

Technician A is correct in saying that a restricted vacuum feed hose may cause a loss of assist after several quick brake applications. This is because the vacuum feed hose provides necessary vacuum pressure to the brake booster, which assists in braking. If the hose is restricted, the brake booster may not receive adequate vacuum pressure, leading to a decrease in braking assistance after multiple quick brake applications.
Technician B is also correct in stating that brake fluid in the vacuum feed hose can indicate a leaking master cylinder seal. The master cylinder contains brake fluid and is responsible for converting the driver's input through the brake pedal into hydraulic pressure. A leaking master cylinder seal can allow brake fluid to enter the vacuum feed hose, which is not designed to handle such fluids. This can be an indication that the master cylinder needs repair or replacement.
In conclusion, both Technician A and Technician B are correct in their assessments. A restricted vacuum feed hose can cause loss of braking assistance after several quick brake applications, and brake fluid in the vacuum feed hose can indicate a leaking master cylinder seal.

To learn more about Braking assistance.

https://brainly.com/question/23879105

#SPJ11

The upper and lower bounds of various network activities can be denoted by establishing thresholds for the number of requests, data transfers, and other activities during normal operations.

Operations is the management of resources, processes, and systems that are used to produce goods and services within an organization. It is the function responsible for the day-to-day activities that create value for customers. Operations processes include the design, planning, control, and improvement of the production of goods and services. Operations can be divided into two main categories: manufacturing and services. Manufacturing operations involve the production of goods in a factory setting, while services operations involve the delivery of services to customers. Operations managers are responsible for ensuring efficient and effective processes are in place to produce goods and services that meet customer expectations.

To learn more about operations

https://brainly.com/question/30456421

#SPJ4

Answer:

a picture showing the actual parts of a circuit and their connection is call a Circuit diagram

Answer:

Q = [ mCp ( ΔT) ] \(_{cooling water }\)

(ΔT)\(_{cooling water}\) and  Q  is given

\(m_{cooling water}\)  = \(\frac{Q}{Cp[ T_{out} - T_{in} ] }\)

next the rate of condensation of the steam

Q = [ m\(h_{fg}\) ]\(_{steam}\)

  \(m_{steam} = \frac{Q}{h_{fg} }\)

Total resistance of the condenser is

R = \(\frac{Q}{change in T_{cooling water } }\)

Explanation:

How will the rate of condensation of the steam and the mass flow rate of the cooling water can be determined

Q = [ mCp ( ΔT) ] \(_{cooling water }\)

(ΔT)\(_{cooling water}\) and  Q  is given

\(m_{cooling water}\)  = \(\frac{Q}{Cp[ T_{out} - T_{in} ] }\)

next the rate of condensation of the steam

Q = [ m\(h_{fg}\) ]\(_{steam}\)

  \(m_{steam} = \frac{Q}{h_{fg} }\)

Total resistance of the condenser is

R = \(\frac{Q}{change in T_{cooling water } }\)

The relation between resistance R6 and R7 is R6 = R7.

Let x(t) be the displacement in meters

10mm = 1v

1m = 100v

V(t) = 100x(t)

x(t) = 0.01v(t)

The voltage. v(t) is directly proportional. to the velocity.

v(t) = dx(t)/dt = 0.01dv(t)/dt

The voltage v2(t) is directly. proportional. to the acceleration.

v2(t) = dv(t)/dt = d²x(t)/dt² = 0.01d²v(t)/dt²

v(t) = -R1C1dv(t)/dt

v1(t) = -R1/R6V(t) = -R1/R6)(-R1C1dv(t)/dt) = R1R7C1/R6 dv(t)/dt

v2(t) = -R2C1R1C1d²v(t)/dt²

R1C1 = 0.01

R2C2 = 1

R7/R6 = 1

R6 = R7 = 10K

R1 = R2 = 1

C1 = 0.01mF

C2 = 1mF

R6 = R7

Resistance is the indicator of how well a circuit resists current flow. Ohms, which are used to measure resistance, are represented by the Greek letter omega (). The term "Ohm" is a reference to the German physicist Georg Simon Ohm (1784–1854), who studied the relationship between voltage, current, and resistance.

Learn more about resistance here:

https://brainly.com/question/29427458

#SPJ4

If numerous individuals are working on a project, configuration management is essential. Many people are working on a project, but each is developing a different module, and modules have dependencies.

What do you mean by configuration management?

Configuration management (CM) is the process of establishing and maintaining consistency between a product's performance, functional, and physical features and its requirements, design, and operational information across the course of its life. Military engineering groups commonly employ the CM process to handle changes across the system lifespan of complex systems such as weapon systems, military vehicles, and information systems.

To learn more about configuration management
https://brainly.com/question/9978288

#SPJ4