Network and create 6 subnets using address 192.7.31.0/24 with subnet mask 255.255.255.224 show the following subnet information below (please show all work such as binary conversion or equations). Note examples are just the format and not correct answers.
1. Subnet ID (Example: 1)
2. Subnet Address (Example: 192.7.31.0)
3. Subnet Mask (Example: 255.255.255.224/27)
4. Host Address Range (Example: 192.7.31.1 - 192.7.31.30)
5. Broadcast Address (Example: 192.7.31.31)

True. Security is especially important when data or processing is performed at a centralized facility, as it often contains sensitive information and resources. Centralized facilities may be more prone to targeted attacks compared to remote locations, making proper security measures crucial.

True. When data or processing is performed at a centralized facility, there is a higher risk of unauthorized access or breaches. It is important to have proper security measures in place to protect sensitive information and prevent cyber attacks. Remote locations may also require security measures, but the risk is often lower due to the smaller scale of operations.
True. Security is especially important when data or processing is performed at a centralized facility, as it often contains sensitive information and resources. Centralized facilities may be more prone to targeted attacks compared to remote locations, making proper security measures crucial.

To learn more about Security, click here:

brainly.com/question/28070333

#SPJ11

The statement "Security is especially important when data or processing is performed at a centralized facility, rather than at remote locations" is true. Centralized facilities, such as data centers, have become increasingly common in recent years as companies seek to consolidate their IT infrastructure and reduce costs. However, with this increased centralization comes an increased risk of security breaches.

For such more question on encryption

https://brainly.com/question/20709892

#SPJ11

Answer:

8765432

Explanation:

8765433

There are the white inheritance regulatory signs are the color combinations of the regulatory signs indicate right- of-way. The general warning signs railroad crossing signs yellow. There was the used the color are the communication purposes.

What is railroad?

The term “railroad” refers to a defunct rail track. The railroad's track does not change and is permanent. In the seventeenth century, the railroad brought England into the world. Two parallel lines are permanently installed on the railroad track.

Regulatory signs are used to command speeds, such as maximum and minimum speed boundaries. The color was the used in the white background. The general warning signs in the railroads are the used in the sign's yellow color. There was the used this color are the communicated to the people.

As a result, the different color used of the communication purposes.

Learn more about on railroad, here:

https://brainly.com/question/28943383

#SPJ2

Answer:

871.8008 KJ/kg

2573.42085 KJ/kg

0.3743

Explanation:

Solution:-

- We are to analyze an ideal Rankine cycle, where the condenser and boiler operating temperatures are defined.

- We start of by evaluating the properties of water at each state before and after the process.

State 1: Condenser Exit / Pump Inlet

           T1 = 40°C   ---> P1,sat = 7.3851 KPa , v1 = vf = 0.001008 m^3/kg

            sat liquid         h1 = hf = 167.53 KJ/kg , s1 = sf = 0.5724 KJ/kg.K

            P1 = condenser pressure

State 2: Pump Exit / Boiler Inlet

           P2 = P3 = Psat,300°C = 8587.9 KPa

Process 1: " Isentropic Compression - constant volume "

The work done by pump in the compression process is:

          wp = v1* ( P2 - P1 )

          wp = ( 0.001008 ) * ( 8587.9 - 7.3851 )

          wp = 8.64915 KJ /kg

Determine the enthalpy at " State 2 " by energy balance on pump ( control  Volume) :

          h2 = h1 + wp

          h2 = 167.53 + 8.64915

          h2 = 176.17915 KJ/kg

State 3: Boiler Exit / Turbine Inlet

          T1 = 300°C   ---> P3,sat = 8587.9 KPa

           sat vapor         h3 = hg =  2749.6 KJ/kg , s3 = sg =  5.7059 KJ/kg.K

           P3 = Boiler pressure

Process 2: " Heat Addition - constant pressure "

The heat supplied in the boiler is:

          qb = h3 - h2

          qp = ( 2749.6 - 176.17915 )

          qb = 2573.42085 KJ /kg    .... Answer ( b )

State 4: Turbine Exit / Condenser Inlet ( Isentropic )

          P4 = P1 = 7.3851 KPa         ..... sfg = 7.685 KJ/kg.K

          s4 = s3 = 5.7059 KJ/kg.K       sf = 0.5716994 KJ/kg.K

                                                           hf = 170.32524 KJ/kg

                                                          hfg = 2406.11 KJ/kg

Process 3: Isentropic Expansion - Determine the quality of liquid-vapor mixture phase ( x ) at state (4):

          x = (s4 - sf) / sfg

          x = (5.7059 - 0.5716994) / 7.685

          x = 0.66808

          h4 = hf + x*hfg

          h4 = 170.32524 + 0.66808*2406.11

          h4 = 1777.79920 KJ/kg

- The work-done by the turbine in the isentropic expansion process ( wt ) is:

          wt = h3 - h4

          wt = 2749.6 - 1777.7992

          wt = 971.8008 KJ/kg   ... Answer ( a )

- To determine the thermal efficiency ( nth ) of the rankine cycle. We need to determined the net work produced by the cycle ( wn ). The net work is the energy balance between the isentropic compression ( work done - pump ) and isentropic expansion ( work produced - turbine ):

          wn = wt - wp

          wn = 971.8008 - 8.64915

          wn = 963.15165 KJ/kg

- The thermal efficiency of a power cycle is the ratio of net work-produced ( wn ) and the heat supplied to the working fluid in the boiler ( qb ) as follows:

         nth = wn / qb

         nth = 963.15165 / 2573.42085

         nth = 0.3743    ..... Answer ( c )

Explanation:

There are 8.35 pounds in a gallon of water. Water weighs 1 gram per cubic centimeter or 1 000 kilogram per cubic meter, i.e. density of water is equal to 1 000 kg/m³; at 25°C (77°F or 298.15K) at standard atmospheric pressure.

Answer:

A ultra 4. that would be amazing to have that.

Answer:

I have know idea

Explanation:

Answer:

14.5° ; THD % = 3.873 × 100 = 387.3%.

Explanation:

Okay, in this question we are given the following parameters or data or information which is going to assist us in solving the question efficiently and they are;

(1). "500 VAR reactive power from 230 Vrms 50 Hz 1.5 KVAR reactor".

(2). Consideration of up to 12th harmonic.

So, let us delve right into the solution to the question above;

Step one: Calculate the Irms and Irms(12th) by using the formula for the equation below;

Irms = reactive power /Vrms = 500/230 = 2.174 A.

Irms(12th) = 1.5 × 10^3/ 12 × 230 = 0.543 A.

Step two: Calculate the THD.

Before the Calculation of the THD, there is the need to determine the value for the dissociation factor, h.

h = Irms(12th)/Irms = 0.543/ 2.174 = 0.25.

Thus, THD = [1/ (h)^2 - 1 ] ^1/2. = 3.873.

THD % = 3.873 × 100 = 387.3%.

Step four: angle AC - Ac converter

theta = sin^-1 (1.5 × 10^3/ 12 × 500) = 14.5°.

Answer: velocity is ze rezon zat you are aving issues

To determine the number of poles needed for a 60-Hz induction motor to drive a load at approximately 850 rpm, we can use the following formula:

Synchronous speed (Ns) = 120 x frequency (f) / number of poles (p)

Since we know the frequency (60 Hz) and the desired speed (850 rpm), we can rearrange the formula to solve for the number of poles:

Number of poles (p) = 120 x frequency (f) / synchronous speed (Ns)

Plugging in the values, we get:

Number of poles (p) = 120 x 60 Hz / 850 rpm
Number of poles (p) = 8.47

Since we can't have a fraction of a pole, we round up to the nearest even number of poles, which is 10. Therefore, a 60-Hz induction motor with 10 poles should be used to drive the load at approximately 850 rpm.

To know more about motor visit :

https://brainly.com/question/31214955

#SPJ11

Answer:

True. needa type in 20 more letters

Explanation:

ye.

Answer:

UI Design

Explanation:

Yes, the relation between internal energy (Au) and the product of mass (m) and specific heat capacity at constant volume (cv) and absolute temperature (T) is not restricted to constant-volume processes only, but can be used for any kind of process of an ideal gas.

This is because the internal energy of an ideal gas is a function of temperature only.

The relation Au = mcΔT is not restricted to constant-volume processes only. It can be used for any kind of process of an ideal gas. This is because the internal energy of an ideal gas is a function of temperature only. So, as long as the temperature of the ideal gas changes, the relation Au = mcΔT can be used to determine the change in internal energy of the gas. Therefore, the process can be used for any kind of process of an ideal gas, whether it is a constant-volume process, a constant-pressure process, or any other type of process.

Learn more about internal energy: https://brainly.com/question/25737117

#SPJ11

Answer:

Gas turbines in Helicopters require lesser space.

Explanation:

[1] In terms of Space Requirements:

The gas used in helicopters requires lesser space as compared to Automotive gas turbines. The gas in automobile have higher thermal efficiency.

[2]. In terms of Environmental impact:

The occurrence of environmental solution is very slim when  used in helicopters' engines.

[3]. In terms of power-to-weight ratio:

The vibrations in engines of helicopters make it to have lesser efficiency as compared to automobile.

[4]. In terms of Fuel availability:

Fuel is available. Automobile can make use of gas as fuel.

Answer:

Investigation or empircial research

Explanation:

gimme brainliest pls

1. Inverse square law states that the intensity of light varies inversely with the square of the distance from the source. It can be represented mathematically as: I = k/d², where I is the intensity of light, d is the distance from the source and k is a constant of proportionality.

This law is illustrated by the fact that as the distance from the source increases, the intensity of light decreases proportionally to the square of the distance.2. Given, diameter of the circular area, d = 200 mRadius of the circular area, r = d/2 = 100 mLamp illuminates a circular area of 200 meters in diameter with the illumination of the disc increasing uniformly from 0.5 meter-candle at the edge to 2 meter-candle at the center. The average illumination can be calculated as follows:Average illumination of the disc, I = (0.5 + 2)/2 = 1.25 meter-candleThe total light received can be calculated as follows:Total light received = (2πr² × I) = (2 × π × 100² × 1.25) = 78,540 lumensAverage candle power of the source can be calculated as follows:Average candle power = Total light received/4π = 78,540/4π = 6250 lumens3. Floodlighting is the use of high-intensity artificial light to illuminate a large area.

The purpose of floodlighting is to provide a bright and uniform light over a large area, typically for outdoor sports fields, stadiums, and other large events. It can be achieved using various types of lighting fixtures, such as floodlights, spotlights, and high-intensity discharge lamps. Suitable diagrams for floodlighting are shown below:

To know more about varies here:

brainly.com/question/6499629

#SPJ11

Answer: Sails are made from a wide variety of fabrics, from natural fibers, such as flax, hemp, and cotton in various forms of sails canvas to synthetic fibers such as polyester, nylon, aramids, laminate and carbon fibers.

Explanation:

A safety data sheet (SDS) is a document that provides information on the potential hazards and safe handling procedures of a substance or product.

Identification of the substance or mixture and of the supplier

Hazards identification

Composition/information on ingredients

First-aid measures

Firefighting measures

Accidental release measures

Handling and storage

Exposure controls/personal protection

Physical and chemical properties

Stability and reactivity

Toxicological information

Ecological information

Disposal considerations

Transport information

Regulatory information

Other information, including date of preparation or last revision.

Read more about data sheets here:

https://brainly.com/question/28244620

#SPJ1

Answer:

Pistons should be inspected and measured.

Explanation:

Option b) Angle Head centrifuge is the best centrifuge for urinalysis department is not true.

A centrifuge is a laboratory instrument that separates fluids, gases, or liquids by spinning them at high speeds. Because it creates a centrifugal force that separates the molecules based on size, shape, and density, it is effective.

In a centrifuge, a sample is placed in a test tube that is placed in a rotor. When the rotor spins, the centrifugal force is created. The sample particles move outward, and the denser particles are pushed toward the bottom of the test tube. The less dense particles will rise to the top of the test tube. After spinning, the sample is separated and ready for further examination.

You can learn more about centrifuge at: brainly.com/question/31465291

#SPJ11

My mother lives.

From the point of view of the sentence, the mother is living far away from the point of her child. She is living not very far but from the point of view of the streets. She is living in her old apartment that is at the end of the road.

Hence says lives just the corner from me.

Learn more about just the corner from me.

brainly.com/question/13857084.

In fixed facility containers, a pressure relief valve can help release container pressure, thereby preventing catastrophic failures.

Pressure relief valve is a type of safety valve that protects equipment and systems from overpressure. When the set pressure of the valve is reached, it opens, allowing excess pressure to escape and preventing potential damage to the system or equipment. Pressure relief valves are commonly used in industrial applications, including fixed facility containers, to protect against catastrophic failures that can occur when pressure builds up beyond the system's design limits.

In addition to pressure relief valves, other safety features may be incorporated into fixed facility containers, such as pressure gauges, rupture discs, and safety relief valves. These safety features help ensure that the container is operating within safe pressure limits and prevent accidents or damage to the container or surrounding equipment.

You can learn more about pressure relief valve at

https://brainly.com/question/30244723

#SPJ11

Answer:

a) As the proton moves, its electric potential energy will decrease.(b) Explanation (I) is the best option. As the proton begins to move, it gains kinetic energy. This kinetic energy comes at the expense of the electric potential energy of the system. The electric potential energy of the system is highest when the proton is at rest and decreases as the proton moves in the direction of the electric field. This is because work is done on the proton by the electric field, which transfers energy to the proton and increases its kinetic energy. The decrease in electric potential energy is equal to the increase in kinetic energy, as per the law of conservation of energy. Option (II) is incorrect because the electric potential energy can either increase or decrease, depending on the direction of motion of the charged particle. Option (III) is also incorrect because the motion of the proton will not necessarily be perpendicular to the electric field.:

Refer to the attached images. Final answer is circled.

Answer:

Zero

Explanation:

For this, it is necessary to use the  the Hagen-Poiseuille equation, which is a law of physics that describes an incompressible fluid of low viscosity through a tube of constant circular cross-section.

By derivating the Pressure over x it becomes zero

\(\frac{dP}{dx} = 0\)

Answer:

Relative roughness = 0.04

Explanation:

Given that:

Diameter = 5 cm

roughness = 2 mm

At inlet:

Minor coefficient loss \(k_{L1} = 0.4\)

At exit:

Minor coefficient loss \(k_{L2} = 1\)

Height h = 4m

Length = 5 m

To find the relative roughness:

Relative roughness is a term that is used to describe the set of irregularities that exist inside commercial pipes that transport fluids. The relative roughness can be evaluated by knowing the diameter of the pipe made with the absolute roughness in question. If we denote the absolute roughness as e and the diameter as D, the relative roughness is expressed as:

\(e_r = \dfrac{e}{D}\)

\(e_r = \dfrac{0.2 }{5}\)

\(\mathbf{e_r = 0.04}\)

Ground effect refers to the improvement in aircraft performance that occurs when it is close to the ground. It is often seen as a cushion of air beneath the aircraft that reduces drag, allowing it to fly more efficiently.

Ground effect is most pronounced when the aircraft is flying close to the ground, typically within one wingspan of the surface. The most common example of ground effect is when an aircraft is in the process of landing. As the aircraft descends towards the runway, it will pass through the ground effect zone, causing a sudden increase in lift.

This phenomenon is known as floating, and it can make it more challenging for pilots to land their aircraft successfully. This is because the aircraft may continue to glide along the runway without touching down, resulting in a missed approach.

In some cases, this can be dangerous if the aircraft runs out of runway before it can come to a stop. To prevent floating during the approach to land, pilots must carefully manage their airspeed and descent rate to ensure they touch down smoothly and safely.

To know more about improvement visit :

https://brainly.com/question/30257200

#SPJ11

The stress at elastic limit is 1.27 N/mm^2, the Young's modulus is 254 N/mm^2, the percentage elongation is 57.5%, the percentage reduction in area is 97.44%, and the ultimate tensile stress is 696.67 N/mm^2.

Stress = Force / Area

Young's modulus = Stress / Strain

Percentage elongation = (extension / gauge length) x 100%

Percentage reduction in area = [(original area - area at neck) / original area] x 100%

Ultimate tensile stress = Maximum load / Area

Diameter of specimen = 100 mm

Gauge length = 100 mm

Extension at 70 KN load = 0.50 mm

Load at elastic limit = 10 KN

Maximum load = 140 KN

Total extension at fracture = 58 mm

Diameter at neck = 16 mm

We can calculate the area of the specimen as follows:

Area = π/4 x d^2

Area = π/4 x (100 mm)^2

Area = 7853.98 mm^2

The stress at elastic limit can be calculated as:

Stress = Load / Area

Stress = 10 KN / 7853.98 mm^2

Stress = 1.27 N/mm^2

The Young's modulus can be calculated as:

Strain = Extension / Gauge length

Strain = 0.50 mm / 100 mm

Strain = 0.005

Stress = Load / Area

Load = Stress x Area

Load = 1.27 N/mm^2 x 7853.98 mm^2

Load = 9982.16 N

Young's modulus = Stress / Strain

Young's modulus = 1.27 N/mm^2 / 0.005

Young's modulus = 254 N/mm^2

The percentage elongation can be calculated as:

Percentage elongation = (extension / gauge length) x 100%

Percentage elongation = (58 mm - 0.50 mm) / 100 mm x 100%

Percentage elongation = 57.5%

The percentage reduction in area can be calculated as:

Original area = π/4 x (100 mm)^2 = 7853.98 mm^2

Area at neck = π/4 x (16 mm)^2 = 201.06 mm^2

Percentage reduction in area = [(original area - area at neck) / original area] x 100%

Percentage reduction in area = [(7853.98 mm^2 - 201.06 mm^2) / 7853.98 mm^2] x 100%

Percentage reduction in area = 97.44%

The ultimate tensile stress can be calculated as:

Area at neck = π/4 x (16 mm)^2 = 201.06 mm^2

Ultimate tensile stress = Maximum load / Area

Ultimate tensile stress = 140 KN / 201.06 mm^2

Ultimate tensile stress = 696.67 N/mm^2

Therefore, the stress at elastic limit is 1.27 N/mm^2, the Young's modulus is 254 N/mm^2, the percentage elongation is 57.5%, the percentage reduction in area is 97.44%, and the ultimate tensile stress is 696.67 N/mm^2.

Learn more about stress on;

https://brainly.com/question/11819849

#SPJ1

Answer: true

Explanation: