Two doubles are read as the power and the distance of a SoundWave object. Declare and assign pointer mySoundWave with a new SoundWave object using the power and the distance as arguments in that order. Ex: If the input is 2.5 1.5, then the output is:SoundWave's power: 2.5SoundWave's distance: 1.5Code:#include #include using namespace std;class SoundWave {public:SoundWave(double powerValue, double distanceValue);void Print();private:double power;double distance;};SoundWave::SoundWave(double powerValue, double distanceValue) {power = powerValue;distance = distanceValue;}void SoundWave::Print() {cout << "SoundWave's power: " << fixed << setprecision(1) << power << endl;cout << "SoundWave's distance: " << fixed << setprecision(1) << distance << endl;}int main() {SoundWave* mySoundWave = nullptr;double powerValue;double distanceValue;cin >> powerValue;cin >> distanceValue;/* Your code goes here */mySoundWave->Print();return 0;}

The dimension of dynamic viscosity in the MLTt system is ML^-1T^-1, derived from the ratio of shear stress to the rate of shear strain in a fluid.

Shear stress (τ) is defined as the force (F) per unit area (A) required to maintain a velocity gradient in the fluid. Its dimensions can be written as [F]/[A] = [M][L]^-1[T]^-2.Velocity gradient (du/dy) represents the change in velocity (du) with respect to the change in distance (dy) perpendicular to the flow. Its dimensions can be written as [du]/[dy] = [L][T]^-1.Therefore, the dimension of dynamic viscosity (μ) can be obtained by dividing the dimensions of shear stress by the dimensions of velocity gradient:[μ] = [τ] / [du/dy] = [M][L]^-1[T]^-2 / ([L][T]^-1) = [M][L]^-1[T]^-1.Hence, the dimension of dynamic viscosity in the MLTt system is [M][L]^-1[T]^-1, which represents mass per unit length per unit time.

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Answer:

-Computer going blank .

-Mouse pointer freezing.

-Keyboard getting stuck.

Explanation:

Any problems with the computer related to its hardware will consist of issues directly related to the physical components of the PC or computer. So any problem involving the physical component of the computer, then it can be termed as a hardware problem.

Based on the problems given in the option, the hardware issues will be problems with the computer, mouse, and keyboard. These form the physical parts of the computer so they will be a hardware issue.

Thus, the correct answers are the third, fourth, and fifth options.

Answer:

c d e

Explanation:

Insufficient information provided to calculate the required parameters.

The transfer function given in the question appears to be incomplete or unclear.

It seems to be missing essential information such as the numerator and denominator coefficients or constants.

Without the complete transfer function, it is not possible to calculate the percent overshoot, settling time, rise time, peak time, and final value.

To accurately determine these parameters, the complete transfer function is required, including the numerator and denominator coefficients or constants.

Additionally, the system dynamics and specifications need to be defined.

Please provide the complete transfer function or any additional information necessary for the calculations, and I would be happy to assist you further.

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(A) Fatigue damage in a ductile material occurs due to cyclic loading, where repeated cycles of stress are applied to the material. This leads to the initiation and propagation of cracks, ultimately leading to failure. The process of fatigue damage can be described in three stages: crack initiation, crack propagation, and final failure.

During the first stage, crack initiation, microscopic defects or discontinuities within the material act as stress concentrators. Under cyclic loading, these stress concentrators experience localized stress concentrations, leading to the formation of small cracks known as fatigue cracks.

In the second stage, crack propagation, the small cracks start to grow under the applied cyclic stresses. The cracks grow gradually with each loading cycle, following the stress field in the material. The growth of these cracks weakens the material's structure and reduces its load-carrying capacity.

Finally, in the third stage, the cracks continue to propagate until they reach a critical size where the material can no longer sustain the applied loads. This results in sudden failure, even at stress levels below the yield strength of the material.

Sketch: [Please imagine a simple sketch showing the stages of crack initiation, propagation, and final failure.]

If a constant stress of σ = 0.9G (where G is the yield strength) is applied to a steel specimen, fatigue damage can still occur despite the stress being below the yield strength. Fatigue damage is influenced by the number of loading cycles, not just the stress level.

Fatigue failure is often described in terms of stress amplitude (σ_a), which is the difference between the maximum and minimum stress levels experienced during cyclic loading. In this case, the stress amplitude can be calculated as:

σ_a = (σ_max - σ_min) / 2

Since the stress is maintained at a constant level (σ = 0.9G), the stress amplitude would be zero, as σ_max = σ_min. Therefore, there is no cyclic variation in stress, and the material will not experience fatigue damage due to the absence of cyclic loading.

Fatigue damage in ductile materials occurs due to cyclic loading, resulting in crack initiation, propagation, and eventual failure. If a constant stress is maintained on a steel specimen, fatigue damage will not occur because cyclic loading is necessary for the fatigue process.

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The most negative value can take before the amplifier saturates. Suppose, Consider a non-ideal op amp where the output can saturate. Hence, The most negative value of is 0.5 mV

The most negative value v2 can take before the amplifier saturates.Suppose, Consider a non-ideal op amp where the output can saturate.The open voltage gain is2*10 4 where,According to figure,

The negative output value is

v0 = -10V

We need to calculate the most negative value of  

Using given formula

v0 = -A(Vs)

Where, = output value

A = voltage gain

Put the value into the formula

-10 = -2 *10 4* Vs

vs = 10/2*10  4

Vs = 0.0005v

Vs = 0.5MV

Hence, The most negative value of  is 0.5 mV.

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The most negative value can take before the amplifier saturates. Suppose, Consider a non-ideal op amp where the output can saturate. Hence, The most negative value of is 0.5 mV

The most negative value v2 can take before the amplifier saturates. Suppose, Consider a non-ideal op amp where the output can saturate. open voltage gain is2*10 4 where, According to figure,

The negative output value is

v0 = -10V

We need to calculate the most negative value of  

Using given formula

v0 = -A(Vs)

Where, = output value

A = voltage gain

Put the value into the formula

-10 = -2 *10 4* Vs

vs = 10/2*10  4

Vs = 0.0005v

Vs = 0.5MV

Hence, The most negative value of  is 0.5 mV.

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Answer:Bio team

Explanation:

a) The Gantt chart view for the project is shown below. The finish date is April 6, 2023. The critical path is A-B-E-F-H-I-K-L and its duration is 25 days.

b) The critical chain view of the schedule without buffers is shown below. The critical chain is A-C-D-E-G-H-I-J-K-L and its duration is 18 days. Adding the project buffer of 25% of the critical chain duration (4.5 days) and the feeding buffers, the end date is April 10, 2023.

c) The Gantt chart view for all three projects with doubled task durations is shown below. The finish date is May 13, 2023.

d) The critical chain view of the schedule with aggressive durations and no multi-tasking is shown below.

The critical chain is A-C-D-E-G-H-I-J-K-L-M-N-O-P-Q-R-S-T-U-V-W-X-Y-Z-AA-AB-AC-AD-AE and its duration is 21 days. Adding the project buffer of 25% of the critical chain duration (5.25 days) and the feeding buffers, the end date is May 23, 2023.

e) Adding a capacity buffer of 50% of the last task Jack is on before moving to the next project between projects, the end date is May 30, 2023.

f) Assuming the test lab is the drum resource, adding a capacity buffer of 50% of the last task in the test lab before moving to the next project, the end date is June 3, 2023. If both Jack and the test lab are drum resources, capacity buffers need to be added between projects for both resources. The overall end date will depend on the size of the buffers added.

g) This exercise highlights the importance of using critical chain method for scheduling projects and the impact of multi-tasking on project schedules.

Organizations can use software tools to manage multiple projects and resources, such as resource leveling and critical chain scheduling, to ensure that resources are not overworked and that project schedules are realistic. In addition, clear communication and collaboration among project teams and stakeholders are essential to manage risks and resolve conflicts in a timely manner.

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Answer: A ,build and put together. engineer build things.

If 93.6 x 10¹²  electrons pass through a lamp in 5 ms, then the current is 0.195 * 10 −³¹ ampere.

What is

T =5 min  

1 minute= 60 seconds.

5 minute

= 5 * 60 seconds

= 300 seconds.

Q= Ne

N = Q/e= 93.6 * 10 ¹² / 1.6 * 10¹⁹

              = 58.5 * 10 − ⁷

Q= It,

I = Q/t= 58.5 * 10/ 300 Seconds

          = 0.195 * 10  − ³¹ ampere.

Therefore,  If 93.6 x 10 ¹² electrons pass through a lamp in 5 ms, then the current is

0.195 * 10 − ³¹ ampere.

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Answer:

As there are no specific signals given in the question, I will provide the general approach to find the Fourier series coefficients for a discrete-time periodic signal.

Suppose we have a discrete-time periodic signal x[n] with period N. Its Fourier series coefficients can be calculated using the following formula:

ak = (1/N) * sum(x[n] * exp(-j2pikn/N)), for k = 0,1,2,...,N-1

where j is the imaginary unit, and * denotes complex conjugation.

To plot the magnitude and phase of each set of coefficients using MATLAB, we can use the following commands:

Ak = abs(ak); % magnitude of coefficients

theta_k = angle(ak); % phase of coefficients

figure; % create new figure

stem(Ak); % plot magnitude

xlabel('k'); ylabel('|Ak|');

figure; % create new figure

stem(theta_k); % plot phase

xlabel('k'); ylabel('theta_k (radians)');

These commands will generate two separate plots, one for the magnitude and one for the phase, with k on the x-axis and |Ak| or theta_k on the y-axis.

Answer:

Electrical short.

Explanation:

Answer:

1) The probability of at least 1 defective is approximately 45.621%

2) The probability that there will be exactly 3 shipments each containing at least 1 defective device among the 20 devices that are tested from the shipment is approximately 16.0212%

Explanation:

The given parameters are;

The defective rate of the device = 3%

Therefore, the probability that a selected device will be defective, p = 3/100

The probability of at least one defective item in 20 items inspected is given by binomial theorem as follows;

The probability that a device is mot defective, q = 1 - p = 1 - 3/100 = 97/100 = 0.97

The probability of 0 defective in 20 = ₂₀C₀(0.03)⁰·(0.97)²⁰ ≈ 0.543794342927

The probability of at least 1 = 1 - The probability of 0 defective in 20

∴ The probability of at least 1 = 1 - 0.543794342927 = 0.45621

The probability of at least 1 defective ≈ 0.45621 = 45.621%

2) The probability of at least 1 defective in a shipment, p ≈ 0.45621

Therefore, the probability of not exactly 1 defective = q = 1 - p

∴ q ≈ 1 - 0.45621 = 0.54379

The probability of exactly 3 shipment with at least 1 defective, P(Exactly 3 with at least 1) is given as follows;

P(Exactly 3 with at least 1) = ₁₀C₃(0.45621)³(0.54379)⁷ ≈ 0.160212

Therefore, the probability that there will be exactly 3 shipments each containing at least 1 defective device among the 20 devices that are tested from the shipment is 16.0212%

Answer:

64640.92 psi

Explanation:

True stress ( psi )       True strain

49300                          0.11

61300                           0.21

Determine the true stress necessary to produce a true plastic strain of 0.25

бT1 = 49300

бT2 = 61300

бT3 = ?

∈T1 = 0.11

∈T2 = 0.21

∈T3  = 0.25

note : бTi = k ∈Ti^h

∴ 49300 = k ( 0.11 )^h ----- ( 1 )

   61300 = k ( 0.21)^h ------ ( 2 )

solving equations 1 and 2 simultaneously

49300/61300 = ( 0.11 / 0.21 )^h

0.804 = (0.52 )^h

next step : apply logarithm

log  ( 0.804 ) = log(0.52)^h

h = log 0.804 /  log (0.52)

  =  0.33

back to equation 1

49300 = k ( 0.11 )^0.33

k = 49300 / (0.11)^0.33

 = 102138

therefore бT3 = K (0.25)^h

                        = 102138 ( 0.25 )^ 0.33  

                         = 64640.92

Answer:

See Explanation

Explanation:

Given

\(n = 100\)

\(\sigma= 4.8\)

Required

The question is incomplete.

Given the sample size and the standard deviation, a likely question could be to calculate the standard error (SE) of the mean

This is calculated as:

\(SE = \frac{\sigma}{\sqrt n}\)

Substitute values

\(SE = \frac{4.8}{\sqrt{100}}\)

Take the positive square root of 100

\(SE = \frac{4.8}{10}\)

\(SE = 0.48\)

By early 1818 Karl Friedrich Schinkel had produced a new design for the Altes Museum in berlin to sit atop the old foundations between existing french and german churches.

What do you mean by design template?

Customizable pre-made designs and documents are known as design templates. Templates are frequently created to adhere to strict guidelines or specifications in order to maintain consistency across users and media. You have the option of creating bespoke templates for later use or using pre-design templates from libraries and websites.

Design templates include color palettes, master slides and titles with personalized formatting, and styled fonts created for a specific "look." The slide master and color scheme of the new template is substituted for those of the previous presentation when a design template is applied to a presentation.

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\(\boxed{ℒ_t[f(t)] =\frac{30}{{s}^{4} } - \frac{9}{s} + \frac{6}{s + 5} + \frac{1}{s - 3}} \)

This holds true because:

\(\lim_{s\to\infty} [\frac{30}{{s}^{4} } - \frac{9}{s} + \frac{6}{s + 5} + \frac{1}{s - 3}] =0 \)

[The answer is throughly verified, hence you can trust this :)]

The proper way to unplug a cord is to pull on the plug and not the cord is true.

What is plug?

Plug is a term used to describe an electrical connection or device that is used to connect two or more electrical components. It is a component that is designed to be connected to a receptacle or an electrical outlet. Plugs can come in different shapes, sizes and configurations and can be used to connect a wide variety of electrical devices. Plugs are used in a variety of applications, from everyday household items to complex industrial machinery. Plugs are used to enable the transfer of energy from one device to another. They provide a safe and easy way to connect electrical devices and components. Plugs provide a secure connection that prevents short circuits and other electrical hazards.

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Answer:A

Explanation:

Those who want to save money and will use the product for only a few years

Answer:

THE ANSWER is A - those who want to save money and will use the product for only a few years

Explanation: Got it right on edg 2021

The value of the resistor that will result in no power being dissipated is when the current through the resistor is zero.

To determine this, we will use the power formula:
Power (P) = Voltage (V) x Current (I)
1: Since we want no power dissipation, set P to 0:
0 = V x I
2: To have no power dissipation, either the voltage across the resistor or the current through it must be zero. If the voltage is non-zero, then the current must be zero:
I = 0
3: According to Ohm's law, V = I x R, where R is the resistance. If I = 0, then it doesn't matter what the resistance is; the voltage will also be zero, and no power will be dissipated.
In conclusion, any value of the resistor will result in no power being dissipated if the current through the resistor is zero.

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Answer:

  It will burn up in the atmosphere.

Explanation:

The wrench will assume a decaying elliptical orbit around the earth, eventually entering the denser atmosphere. It will heat sufficiently to melt and evaporate.

Assuming that the electrons in a material follow the Fermi-Dirac distribution function and  EF​ is 0.3eV below EC​, the temperature at which the probability of an electron occupying an energy state at E=(EC​+0.025)eV is 8×\(10^{-6}\) is 271.74 K.

A mathematical depiction of the probability distribution of the energy of the quantum states that electrons can reside in at a specific temperature is the Fermi-Dirac probability function.

It explains what happens to the electrons within metal solids as their temperature rises. The Fermi Level Formula is - k=1.38×10-23 J/K=8.62×10-5 eV/K. The detailed solution is attached below.

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Answer:

The answer is A

Explanation:

The correct answer is A

Answer:

YES

Explanation:

NO

;-;

Answer:

ere el merjor 5iyer

Explanation:

yyhh espero ayuder 8 mucho 666

Answer:

Electrical energy

At amateur operating frequencies, the FTDX10 is designed for 50 Ohm resistive impedance.

Impedance is the sum of resistance and reactance. It was defined as anything that can obstructs the flow of electrons within the electrical circuit. As a result, it influences current generation in the electrical circuit. It could be found in all the possible circuit components and across all possible electrical circuits. Impedance is represented mathematically by the letter Z and has the unit ohm. It's a mix of resistance and reactance.

Z stands for impedance, which is an expression of the resistance to alternating and/or direct electric current that an electronic component, circuit, or system offers. Resistance and reactance are two independent scalar (one-dimensional) phenomena that make up the vector (two-dimensional) quantity known as impedance.

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Answer:

  1 13/64

Explanation:

The depth of the hole is the height of the block less the remaining material below the hole:

  depth = 1 3/8 +1 15/16 - 3/8 = (1 3/8 -3/8) +1 15/16 = 2 15/16

We want to find the difference between this depth and the depth of the hole already drilled:

  2 15/16 -1 47/64 = 2 60/64 -1 47/64

  = (2 -1) +(60 -47)/64 = 1 13/64

The hole must be drilled 1 13/64 deeper to match the drawing.

Answer:

Rear body panel. Rear bumper cover. Rear rails.

Explanation:

The body parts that serves as front end cross structures of vehicles are Rear body panel , front bumper and rear nails

Front end cross structures refers to several frontal parts or part that are located at the front of automobilles that define it's appearance and it's effective workability. The frontal parts are essential for the effective running of the vehicles and also define the vehicles appearance.

Therefore, The body parts that serves as front end cross structures of vehicles are Rear body panel , front bumper and rear nails.

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The calculated mean value is 16. The sum of all values divided by the total number of values determines the mean (also known as the arithmetic mean, which differs from the geometric mean) of a dataset.

The term "average" is frequently used to describe this measure of central tendency. By dividing the sum of the given numbers by the entire number of numbers, the mean—the average of the given numbers—is determined. Mean is equal to (Sum of All Observations/Total Observations).

Mean=12+15+17+20/4

=16

Special road signage designate 10-cent zones. At the beginning and finish of the zone, there are signs. There is one space available for as long as three or four hours each day. Only specific hours of the day are subject to the 10 cent rate. There may be a Blue Zone in locations where paid parking is not (yet) in effect.

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Answer:

It should be within 10%

Explanation:

Cranking compression is simply the pressure that builds up inside cylinders when the valves are closed and the piston then moves up the bores to lead to compression of the mixture.

Cranking compression is normally measured in pounds per square inch (PSI).

When checking cranking compression, we should be looking for signs of replication between cylinders. It means that each cylinder should build pressure within about 5 percent of the others under the same number of starter revolutions. Thus, the variation between the highest and lowest readings should not be more than 10%