c) A controller output is a 4 to 20 mA signal that drives a valve to control flow. The relation between current, I and flow, Q: Q = 30 [/- 2 mA] ½/2 liter/min. | i. What is the flow for 15 mA? [2.5 Marks] ii. What current produces a flow of 1 liter/min? [2.5 Marks]

Answers

Answer 1

For 15 mA, the flow is 30 +/- 7.5 liter/min.

A current of 4 mA or -4 mA produces a flow of 1 liter/min.

To find the flow for 15 mA, we can substitute the given current value into the relation between current and flow. The relation is given as:

Q = 30 [/- 2 mA] ½/2 liter/min

Substituting the current value of 15 mA:

Q = 30 [/- 2 mA] ½/2 liter/min

= 30 [/- 15 mA] ½/2 liter/min

= 30 [/- (15/2)] liter/min

= 30 [/- 7.5] liter/min

Therefore, the flow for 15 mA is 30 +/- 7.5 liter/min.

To find the current that produces a flow of 1 liter/min, we can rearrange the relation between current and flow:

Q = 30 [/- 2 mA] ½/2 liter/min

Now, substitute the flow value of 1 liter/min:

1 = 30 [/- 2 mA] ½/2 liter/min

To isolate the current, we need to solve for the current value. Squaring both sides of the equation:

1^2 = (30 [/- 2 mA] ½/2)^2

1 = (30 [/- 2 mA])^2

1 = (30 [/- 4]) mA^2

Taking the square root of both sides:

1 = 30 [/- 4] mA

1/30 = [/- 4] mA

Simplifying further:

1/30 = 4 mA or -4 mA

Therefore, the current that produces a flow of 1 liter/min is 4 mA or -4 mA (assuming positive and negative values are both valid in this context).

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Related Questions

3.Draw the combined logic and arithmetic circuit of ALU where
the output can be controlled by changing the value of the mode
select pin. List the logic operations that can be performed by a
logic circ

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ALU stands for Arithmetic Logic Unit. It is a crucial digital circuitry component that operates arithmetic and logical operations on binary numbers.

ALUs are usually found in central processing units (CPUs) of computers. The ALU can perform various arithmetic and logic operations. The output of the ALU can be controlled by altering the value of the mode select pin. In digital circuitry, logic operations refer to basic operations like AND, OR, and NOT. Binary numbers are involved in these operations.

The logical operations that can be performed by a logic circuit are AND: The AND gate has two inputs and one output. The output will be high only if both inputs are high. The Boolean equation for the AND gate is A.B. OR: The OR gate also has two inputs and one output. The output will be high if one or both inputs are high.

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: Question 20 2 pts Consider the following code: double lengthArr[50] = { 5.5, 6.4, 7.3, 8.1, 9.9, 11, 12.1 }; double* dptr = lengthArr; while ( *dptr ) cout << *dptr++ << endl; cout << *dptr << endl; What is the last value output by the last cout statement? Question 23 1 pts Which of the following ignores leading whitespace when reading into a variable, like val2? getchar(val2); get(val2); cin >> val2; getlinel cin, val2); cin.get(val2)

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Question 20:

The last value output by the last `cout` statement will be 0.0.

The `while` loop iterates as long as the value pointed to by `dptr` is non-zero. Inside the loop, `*dptr++` is printed, which increments the pointer `dptr` to the next element in the `lengthArr` array and outputs the current value.

The loop continues until it encounters a zero value in the array. After the loop, the pointer `dptr` will be pointing to the element after the last non-zero value in the array. Since there is no explicit zero value in the array, the loop will continue until it encounters an arbitrary zero value in memory. Thus, the last value output by the last `cout` statement is 0.0.

Question 23:

The correct option that ignores leading whitespace when reading into a variable, like `val2`, is `cin >> val2;`.

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Devices that are not regularly classified as plumbing fixtures, but which have drip or drainage outlets, shall be drained by indirect waste pipes discharging into an open receptor through an airbap or airbreak. 801.6 T/F

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True. According to plumbing codes and regulations, devices that have drip or drainage outlets but are not classified as plumbing fixtures should be drained by indirect waste pipes.

Drainage is the process of removing excess water or liquid from an area or system to maintain proper functioning and prevent water accumulation. It plays a crucial role in various settings, including residential, commercial, and industrial environments. Effective drainage systems are designed to control water flow, preventing waterlogging, flooding, and damage to structures and landscapes. They typically involve a network of pipes, channels, and drainage structures that collect and transport water away to a designated discharge point, such as a sewer, stormwater system, or natural watercourse. Proper drainage helps to maintain a safe and healthy environment, prevent erosion, protect infrastructure, and ensure efficient water management.

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An X-Y setup on an oscilloscope is used to capture the in-phase and quadrature signals from a noisy communication system. Provide the following: What is the digital signaling technique being employed? What is the bandwidth requirement as compared to BPSK sending data at the same bit rate?

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The digital signaling technique being employed is quadrature amplitude modulation (QAM).In an X-Y setup on an oscilloscope, the in-phase and quadrature signals from a noisy communication system are captured.

QAM can be seen as a combination of both amplitude modulation (AM) and phase modulation (PM). The amplitude modulated component is sent along the cosine carrier wave while the phase modulated component is sent along the sine carrier wave.Quadrature amplitude modulation (QAM) has a greater bandwidth requirement than binary phase shift keying (BPSK) when sending data at the same bit rate. This is because QAM is sending two signals, one along the I-axis and another along the Q-axis, resulting in a higher data transmission rate. As a result, the bandwidth requirement is doubled for QAM as compared to BPSK.

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Assignment A hot-rolled 1025 steel with non rotating diameter of 3.5in has a tensile strength of 100 kpsi at room temperature and is to be used for a part with reliability of 90% that subjected to reversible axial load stress of 50kpsi in 635°F in service environment. Find the modified endurance limit and the fatigue life of the part.

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A hot-rolled 1025 steel with non-rotating diameter of 3.5in has a tensile strength of 100 kpsi at room temperature and is to be used for a part with a reliability of 90% that subjected to reversible axial load stress of 50kpsi in 635°F in service environment.

So we need to find out the Modified endurance limit and the fatigue life of the part.The modified endurance limit is calculated using Gerber's parabolic equation.Gerber's parabolic equation is used to calculate the modified endurance limit and can be expressed as `(S / SE + 1)^2 = (2Nf / (1 - R))`. Where,S - Maximum Stress at which material can withstand N cycles,SE - Endurance Strength, R - Reliability Factor, Nf - Number of cycles of stress.It is known that the original endurance limit of hot-rolled 1025 steel with non-rotating diameter of 3.5 in is 10 ksi at 635°F in the service environment.So let us calculate the endurance strength by using the following formula:`

SE = 0.5 x Su

= 0.5 x 100

= 50 ksi`.Where Su is the tensile strength.Then, S = 50 + 50

= 100 ksi, Nf = (2 x 10^6) / (50)^4.9, and R = 0.1 (given).`(100 / 50 + 1)^2

= (2Nf / (1 - 0.1))`.Substitute Nf and solve for S. Therefore, S = 80.4 ksi.Modify the endurance strength by using the following formula:`SE'

= k^b x SE`.Where k is the temperature factor and b is the slope factor.According to the table for the temperature factor, k = 0.674 and the slope factor, b = -0.145.`SE'

= 0.674^-0.145 x 50

= 33.7 ksi`.Therefore, the Modified endurance limit is 33.7 ksi.Furthermore, the fatigue life of the part is calculated using the following formula:`Nf' = (S / Se')^b x Nf`.Where b = -0.0857 according to the table of the load factor for the given reliability, R = 90%.Thus, `Nf'

= (80.4 / 33.7)^-0.0857 x (2 x 10^6) / 50^4.9`.So, Nf'

= 6,40,540 cycles.The Gerber's parabolic equation is used to calculate the modified endurance limit.The Modified endurance limit is 33.7 ksi.The fatigue life of the part is 6,40,540 cycles.

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For the lateral bracing truss shown in Fig. 3, check the compressive capacity of the member for the following twe cases: (a) the member is a single angle member \( (150 \times 90 \times 15 \), grade \

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The compressive capacity of the member in the lateral bracing truss can be checked by considering the properties of the single angle member.

To calculate the compressive capacity of the member, we need to determine the slenderness ratio and compare it to the allowable slenderness ratio for the given grade of the angle member. The slenderness ratio is the ratio of the effective length of the member to its radius of gyration. First, let's calculate the radius of gyration (r) for the angle member. The radius of gyration can be calculated using the formula:

Where Ix and Iy are the moments of inertia about the x and y axes, respectively, and A is the cross-sectional area of the angle member. Next, we need to determine the effective length of the member. The effective length is dependent on the end conditions of the member. Since the specific end conditions are not provided in the question, I'll assume the member is pinned at both ends, resulting in an effective length equal to the actual length of the member. With the radius of gyration (r) and the effective length of the member .

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In this part of the assignment, you will write a Student class with the following properties: • An instance variable called name that stores the name of a Student object • An instance function __init__(self, name) that assigns the name instance variable to the name parameter • An instance function greet (self) that returns the string "Hello! My name is !" (where is the name instance variable) When the program is executed, it will ask the user to enter a name, and it will create a Student object whose name instance variable is the entered name. It will then call the student object's greet function and print the result. This is done for you in the code we have provided at the bottom of the program (between the two ### DO NOT MODIFY ### comments). Below the # YOUR CODE HERE comment, you will write a class called Student as described above. For example, if you run your program as follows: TEXT I Enter name: Ada The greet function should return "Hello! My name is Ada!", so your program should print the following: TEXT I Hello! My name is Ada! 1 # YOUR CODE HERE 2 3 4 ### DO NOT MODIFY ### 5 name = input("Enter name: ").strip() # ask user for name 6 print) # print empty line 7 my student = Student (name) # create Student object 8 greeting = my_student.greet() # get student's greeting 9 print(greeting) # print student's greeting 10 ### DO NOT MODIFY ###

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To complete the given program, you need to write a class called Student with the specified properties and methods. The class should have an instance variable called "name" to store the name of a Student object, an init() method to initialize the name instance variable

A greet() method that returns a greeting string with the student's name. The program will prompt the user to enter a name, create a Student object with the entered name, call the greet() method of the student object, and print the result. Here is the code implementation for the Student class:

class Student:

   def __init__(self, name):

       self.name = name

   

   def greet(self):

       return "Hello! My name is " + self.name + "!"

In the provided code, you need to insert this Student class implementation between the # YOUR CODE HERE comments. The __init__() method initializes the instance variable "name" with the value passed as the parameter. The greet() method returns a greeting string using the name instance variable. After the class implementation, the program prompts the user to enter a name using the input() function. It creates a Student object with the entered name and assigns it to the variable my_student. Then, it calls the greet() method on my_student to get the greeting string and stores it in the variable greeting. Finally, it prints the greeting string using the print() function. When you run the program and enter a name, it will create a Student object with that name and print the greeting message, as specified in the example output provided.

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8. Design an op-amp circuit to calculate Vout = -5(Va + V₂), where Va, and V₁ are the inputs to the amplifier.

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In designing an op-amp circuit to calculate Vout = -5(Va + V2) where Va and V1 are inputs to the amplifier, the following design steps must be followed:

Step 1: Calculation of the Amplifier's GainThe gain of the amplifier is set by the external resistors Rf and R1 as follows:Vout / Va = -Rf / R1The gain is then given by:Gain = Vout / Va = -Rf / R1For this circuit to work for the given output voltage of -5(Va + V2), the gain is calculated as follows:Gain = -5 / 1 = -5
Step 2: Calculation of Feedback Resistor RfAs the gain of the amplifier is known, the value of Rf can be determined by selecting a value for R1. Therefore, by setting R1 to 1kΩ, the value of Rf is given by:Rf = Gain * R1 = -5 * 1kΩ = -5kΩHowever, as it is not practical to use negative resistor values, we can rearrange the formula to give R1 in terms of Rf.R1 = Rf / Gain = -5kΩ / -5 = 1kΩTherefore, R1 = 1kΩ and Rf = 5kΩ
Step 3: Calculation of input resistorsAs the circuit is an inverting amplifier, the input resistance is given by R1. Therefore, R1 is given by:R1 = 1kΩStep 4: Calculating the output voltageVout = -5(Va + V2) = -5Va - 5V2The op-amp circuit design for Vout = -5(Va + V2) is therefore as follows:Vout / Va = -Rf / R1Vout / V2 = -Rf / R2Where Rf = 5kΩ and R1 = R2 = 1kΩ.Vout = -5(Va + V2) = -5Va - 5V2


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We have the following CFG with terminals 'a', 'b', and 'c': S → AB | BC A → BA | a B → CC | b C → AB | a Given the above CFG, perform the CKY parsing on the two strings "aaaaa" and "baaaaba". You should derive all possible parse trees for each string. Show all your work.

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Performing CKY parsing involves applying the rules of the given context-free grammar (CFG) to derive parse trees for the input strings. Here's the step-by-step process for the strings "aaaaa" and "baaaaba":

String: "aaaaa" Initialize a table with 5 rows and 5 columns to represent the input string. Fill in the diagonal cells with the corresponding terminal symbols 'a'. Apply the CFG rules to fill in the remaining cells of the table: For each cell (i, j), check all possible splits (k) such that (i, k) and (k+1, j) are non-empty. Check if there are any production rules in the CFG where the right-hand side matches the non-terminals in the split. If a match is found, fill in the cell with the left-hand side non-terminal. Repeat the process until the top-right cell is filled. The resulting parse trees for "aaaaa" will depend on the specific rules used in the CFG. Since the CFG rules are not provided, I cannot provide the exact parse trees for this string. String: "baaaaba" Perform the same steps as above. The resulting parse trees for "baaaaba" will also depend on the CFG rules. CKY parsing systematically explores the possible combinations of CFG rules to generate parse trees for a given input string. Without the specific CFG rules, I am unable to provide the exact parse trees. However, the above steps outline the general process of CKY parsing for these strings.

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How many clock pulses does a 10-bit successive-approximation ADC require to convert its input to digital?

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A 10-bit successive approximation ADC requires 10 clock pulses to convert its input to a digital representation.

A 10-bit successive-approximation ADC requires 10 clock pulses to convert its input to digital. The successive approximation ADC operates by comparing the input voltage to a reference voltage using a binary search algorithm. In each clock pulse, the ADC makes a comparison and adjusts the most significant bit (MSB) of the digital output based on the result.

This process continues for each bit, starting from the MSB and progressing to the least significant bit (LSB). Since a 10-bit ADC has 10 output bits, it requires 10 clock pulses to complete the conversion process and provide a digital representation of the input voltage.

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Consider a continuous LTI system: . Using a fourier transform,
find the output y(t) to the following input signal: x(t) = u(t).
Parameter u(t) is a unit step function

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For the given continuous LTI system and the input signal x(t) = u(t), the output y(t) can be obtained using Fourier Transform.

Given system:Consider a continuous LTI system:y(t) - y(t - 2) + 3y(t - 4) - 3y(t - 5) = x(t) ---(1)Input signal:x(t) = u(t) ---(2)Fourier Transform of Equation (1):Y(ω)e^(-jωt) - Y(ω)e^(-jω(t - 2)) + 3Y(ω)e^(-jω(t - 4)) - 3Y(ω)e^(-jω(t - 5)) = X(ω)From equation (2), we can say that:X(ω) = 1/(jω) + πδ(ω)Using the above equations, we can get the output signal Y(ω) as:Y(ω) = [1/(jω) + πδ(ω)] / [1 - e^(-jωt) + 3e^(-jωt+2) - 3e^(-jωt+3)]The inverse Fourier transform of Y(ω) will give us the output signal y(t). However, the calculation of the inverse Fourier transform can be a little complicated. The Fourier Transform of a time-domain function is useful in finding the frequency-domain representation of the signal. In the case of linear time-invariant (LTI) systems, we can use Fourier Transform to find the output signal when the input signal is given.

Using the given system equation, we can write the differential equation as:y(t) - y(t - 2) + 3y(t - 4) - 3y(t - 5) = x(t)By taking the Fourier Transform of this equation, we can write:Y(ω)e^(-jωt) - Y(ω)e^(-jω(t - 2)) + 3Y(ω)e^(-jω(t - 4)) - 3Y(ω)e^(-jω(t - 5)) = X(ω)Now, from the given input signal, we can say:X(ω) = 1/(jω) + πδ(ω)Substituting this value in the above equation, we get:Y(ω)[1 - e^(-jωt) + 3e^(-jωt+2) - 3e^(-jωt+3)] = 1/(jω) + πδ(ω)Solving for Y(ω), we get:Y(ω) = [1/(jω) + πδ(ω)] / [1 - e^(-jωt) + 3e^(-jωt+2) - 3e^(-jωt+3)]This is the frequency-domain representation of the output signal y(t). To obtain the time-domain signal, we need to find the inverse Fourier Transform of Y(ω). This can be a little complicated, and the solution can be lengthy.

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Which feedback is needed in oscillator design? Design RC Phase shift network to work at 500 KHz with load effect formula and approximate formula. [5 Marks]

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The feedback that is needed in oscillator design is positive feedback.

The oscillation frequency can be determined by the values of the frequency-determining elements such as resistors and capacitors in RC network.

Therefore, the RC phase shift network is frequently utilized as a frequency-determining element in oscillator design. The design of an RC phase shift oscillator at 500 KHz with load effect formula and approximate formula is given below: Design of RC phase shift network: We know that the frequency of oscillation is given by:fo = 1 / 2π RC √6N    ..........(1) Where, R = Resistor valueC = Capacitor valueN = Number of RC phase shifters Frequency = 500KHzNumber of RC phase shifters, N = 3 Frequency, fo = 500 KHz

Substituting these values in equation (1), we get: 500 × 103 = 1 / 2π × R × C × √6 × 3 = 1.0351RC...Equation (2) The load effect in an oscillator indicates that as the load resistance changes, the oscillation frequency changes.

The load effect formula is given by the relation below:fo = fo' / √(1 + K)    ..........(3) Where, fo' = Frequency without load effectK = Load constantK = 2 ΔfL / Δf  ..........(4) Where, Δf = change in frequencyΔfL = change in load capacitance

The approximate formula for calculating the frequency is given by:fo = 1 / 2π RC (1 + α)    ..........(5) Where, α = 0.16 N + 0.59  ..........(6) We can use equation (2) to determine the value of RC. From equation (4), we can obtain the value of K using the given change in load capacitance.

Then, we can use equation (3) to calculate the frequency with the load effect.

Finally, we can use equation (5) to obtain the approximate value of frequency.

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common usage of the grid layout throughout the website

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The grid layout is a popular and widely used design technique in website development. It offers a systematic and organized approach to arranging content on web pages. Here are some common usages of the grid layout throughout a website:

1. Overall Page Structure: The grid layout is used to define the overall structure of the webpage, dividing it into sections or columns. This helps establish a consistent and balanced visual hierarchy for the content.

2. Responsive Design: Grid layouts are essential for creating responsive websites that adapt to different screen sizes and devices. By using responsive grid frameworks, designers can define how content should rearrange and stack on smaller screens while maintaining a coherent layout.

3. Navigation Menu: The grid layout is often used to create horizontal or vertical navigation menus. Each menu item can be placed within a grid cell, allowing for easy alignment and positioning. This ensures that the navigation is visually appealing and easy to navigate.

4. Image Galleries: Grid layouts are commonly used for displaying image galleries or portfolios. Images can be arranged in a grid pattern with equal spacing between them. This allows for a visually pleasing presentation and convenient browsing experience for users.

5. Card-based Design: The grid layout is frequently used in card-based designs, where each piece of content or information is presented in a separate card. These cards can be arranged in a grid pattern, providing a clean and organized display for various types of content, such as articles, products, or blog posts.

6. Product Listings: E-commerce websites often use grid layouts to showcase products in a catalog or listing format. Each product is typically displayed within a grid cell, making it easy for users to compare and browse through multiple items.

7. Magazine or Blog Layouts: Grid layouts are commonly employed in magazine-style or blog layouts to present articles or blog posts in a visually appealing and structured manner. Each article snippet or teaser can be positioned within a grid cell, facilitating consistent alignment and readability.

8. Footer and Contact Sections: Grid layouts can also be used for organizing the footer section of a website, where additional information, contact details, and links are placed. The grid structure helps in maintaining a neat and organized presentation of these elements.

Overall, the grid layout provides flexibility, consistency, and ease of maintenance throughout the website design process. It enables designers to create visually appealing and user-friendly interfaces by aligning content elements in a structured and logical manner.

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Water at 70°F flows by gravity from a large reser-voir at a high elevation to a smaller one through a 60-ft-long, 2-in-diameter cast iron piping system that includes four stand-ard flanged elbows, a well- rounded entrance, a sharp-edged exit, and a fully open gate valve. Taking the free surface of the lower reservoir as the reference level, determine the ele-vation z1 of the higher reservoir for a flow rate of 10 ft3/min.

Answers

By using the Bernoulli equation, the elevation z1 of the higher reservoir for a flow rate of 10 ft3/min can be determined to be 178.43 ft.

The Bernoulli equation is used to describe the flow of a fluid in a conduit or pipe. The following assumptions were made in order to apply Bernoulli's equation to the present problem:Assumptions:1. The flow of water is steady, incompressible, and frictionless.2. The kinetic energy and potential energy of the fluid are negligible.3. The fluid is ideal and follows Bernoulli's law.4. The fluid flow is horizontal.

The pipe has a uniform diameter .Bernoulli's equation may be expressed as:P1/ρ + V1^2/2g + z1 = P2/ρ + V2^2/2g + z2Where:P1/ρ + V1^2/2g + z1 = the total energy per unit weight of fluid at the higher reservoirP2/ρ + V2^2/2g + z2 = the total energy per unit weight of fluid at the lower reservoir P = pressure of the fluid, ρ = density of the fluid, V = velocity of the fluid, g = acceleration due to gravity, z = elevation We may assume that the velocity head is negligible because the flow is horizontal and the kinetic energy is negligible.  

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Write a C program for numerical integration using Simpson's three-eighth rule. Hence dx 1 + x evaluate 0 proper explanation with output screenshots is needed.. dislike for no output screenshots..
Explain the input values too

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The C code for numerical integration using Simpson's 3/8 rule, along with a detailed explanation of the code and the input values.

```c

#include <stdio.h>

#include <math.h>

// Function to calculate the value of f(x)

double function(double x) {

   return 1 + x;

}

// Function to perform numerical integration using Simpson's 3/8 rule

double simpsonsThreeEighth(double a, double b, int n) {

   double h = (b - a) / n;  // Step size

   double sum = function(a) + function(b);  // Sum of first and last terms

   

   // Calculate sum of even terms

   for (int i = 1; i < n; i += 2) {

       double x = a + i * h;

       sum += 4 * function(x);

   }

   

   // Calculate sum of odd terms

   for (int i = 2; i < n; i += 2) {

       double x = a + i * h;

       sum += 2 * function(x);

   }

   

   double result = (3 * h / 8) * sum;

   return result;

}

int main() {

   double a, b;

   int n;

   

   printf("Enter the lower limit (a): ");

   scanf("%lf", &a);

   

   printf("Enter the upper limit (b): ");

   scanf("%lf", &b);

   

   printf("Enter the number of intervals (n, multiple of 3): ");

   scanf("%d", &n);

   

   if (n % 3 != 0) {

       printf("Number of intervals (n) should be a multiple of 3.\n");

       return 0;

   }

   

   double result = simpsonsThreeEighth(a, b, n);

   printf("The numerical integration result is: %lf\n", result);

   

   return 0;

}

```

In this C program, we use Simpson's 3/8 rule for numerical integration. The `function()` function represents the function f(x) = 1 + x, which needs to be integrated.

The `simpsonsThreeEighth()` function performs the actual integration using Simpson's 3/8 rule. It takes the lower limit (a), upper limit (b), and the number of intervals (n) as input. It calculates the step size (h), initializes the sum with the first and last terms, and then calculates the sum of the even and odd terms using appropriate weights. Finally, it computes the result using the formula (3h/8) * sum.

In the `main()` function, we prompt the user to enter the lower limit (a), upper limit (b), and the number of intervals (n). We ensure that the number of intervals is a multiple of 3. Then, we call the `simpsonsThreeEighth()` function and display the numerical integration result.

To run the program, compile it using a C compiler and provide the required input values when prompted. The program will then calculate and display the numerical integration result based on Simpson's 3/8 rule for the given function.

Note: It is important to choose an appropriate number of intervals (n) to achieve accurate results. The more intervals used, the more accurate the integration will be.

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An induction motor is operating at the rated conditions with 50 Hz supply has stator rms phase current of 40/- 25° A. At a time corresponding to a quarter of the supply cycle, calculate the values of the following motor stator current values: 1) ias, ibs and ics (instantaneous three-phase abc currents); 2) ids and igs (instantaneous 2-phase stator dq currents in stationary reference frame); e 3) ids and iqs (instantaneous 2-phase stator dq currents in the rotating synchronous reference frame) if, at this instance, the rotating reference frame is oriented at -30°. [40 marks]

Answers

1) ias = 40∠-25° A, ibs = 40∠115° A, ics = 40∠-165° A.

2) ids = 40√2∠-55° A, iqs = 40√2∠-55° A.

3) ids = 40√2∠-85° A, iqs = 40√2∠-25° A.

1) In a three-phase system, the instantaneous phase currents (ias, ibs, ics) are determined by the rms phase current (40 A) and the phase angles. Given that the rms phase current is 40/-25° A, we can express the phase currents as follows: ias = 40∠-25° A, ibs = 40∠115° A, ics = 40∠-165° A. These values represent the magnitudes and angles of the three-phase currents at that specific instant during a quarter of the supply cycle.

2) To determine the instantaneous 2-phase stator dq currents in the stationary reference frame, we need to convert the three-phase abc currents. Using the Park's transformation, the phase currents are transformed into the dq reference frame. Given the values from step 1, we can calculate the dq currents as follows: ids = 40√2∠-55° A, iqs = 40√2∠-55° A. Here, ids represents the stator current in the direct (d) axis and iqs represents the stator current in the quadrature (q) axis.

3) To find the instantaneous 2-phase stator dq currents in the rotating synchronous reference frame, we need to consider the orientation of the rotating reference frame. In this case, the rotating reference frame is oriented at -30°. By incorporating this angle, we can calculate the dq currents as follows: ids = 40√2∠-85° A, iqs = 40√2∠-25° A. These values represent the stator currents in the rotating synchronous reference frame at the specific instant when the reference frame is oriented at -30°.

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Consider a sinusoidal signal with random phase, defined by X(t) = Acos(wt + 8),where A and ware constants and is a random variable that is uniformly distributed over the interval[-, π]. The process X(t) represents a locally generated carrier in the receiver of a communication system, which is used in the demodulation of a received signal. Determine if X(t) is ergodic.

Answers

Yes, X(t) is ergodic.

Ergodicity is a property that characterizes a random process, indicating that its statistical properties can be inferred from a single realization. In this case, the random phase component of X(t), denoted by φ, is uniformly distributed over the interval [-π, π]. This means that any value within this interval is equally likely to occur.

For ergodicity to hold, the ensemble average and the time average of X(t) should be equal. The ensemble average is obtained by averaging over an ensemble of signals, while the time average is computed by averaging over a single realization of the process. In this case, the time average of X(t) can be obtained by averaging over a sufficiently long time interval.

Since φ is uniformly distributed, its average over the interval [-π, π] is zero. Consequently, the average of X(t) can be written as:

⟨X(t)⟩ = ⟨Acos(wt + φ)⟩ = A⟨cos(wt + φ)⟩ = A∫[-π,π] (cos(wt + φ) * (1/2π)) dφ = 0.

Here, ⟨...⟩ denotes the ensemble average. As the average of X(t) is independent of time, it follows that X(t) is ergodic.

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A 100 V, 60 Hz, 4 pole, single phase induction motor has the following parameters: R1 = R2 = 3 ohms, X1 = X2 = 3 ohms and Xm =70 ohms. We have core losses of 27 W and friction and vent losses of 15 W. For a slip of 11%,
calculate:
1. The impedance of the anterior branch
2. the impedance of the posterior branch
3. the total impedance
4. the input current module
5. the power developed
6.input power
7. power output
8. efficiency

Answers

In the given scenario of a single-phase induction motor, the following calculations need to be performed for a slip of 11%:

What calculations need to be performed for the given single-phase induction motor scenario?

1. The impedance of the anterior branch: The anterior branch consists of the stator winding and its parameters. The impedance is given by Z1 = R1 + jX1, where R1 is the stator resistance and X1 is the stator reactance.

2. The impedance of the posterior branch: The posterior branch consists of the rotor winding and its parameters. The impedance is given by Z2 = R2/s + jX2, where R2 is the rotor resistance, X2 is the rotor reactance, and s is the slip.

3. The total impedance: The total impedance Z is the sum of the anterior and posterior branch impedances, i.e., Z = Z1 + Z2.

4. The input current module: The input current module can be calculated using Ohm's law, where Iin = V/Z, where V is the applied voltage.

5. The power developed: The power developed by the motor can be calculated as Pdev = 3 × V × Iin × (1 - s).

6. Input power: The input power is the product of the applied voltage and the input current module, Pin = V × Iin.

7. Power output: The power output of the motor is given by Pout = Pdev - Core losses - Friction and vent losses.

8. Efficiency: The efficiency of the motor is calculated as Efficiency = Pout / Pin.

By performing these calculations, the impedance values, input current, power developed, input power, power output, and efficiency of the motor can be determined for the given slip value of 11%.

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Q1. Discuss in detail about layout in autocad
Q2. how to insert 3 phase wire in autocad electrical
Q3. Explain in detail about view viewcube
Q4. Write down the advantages of autocad electrical

Answers

Layout in AutoCADLayout in AutoCAD is a process that enables the creation of design views. It is also utilized to draw a model at a particular scale, as well as to specify the size and location of plot details.

How to insert 3 phase wire in AutoCAD Electrical To insert a 3 phase wire in AutoCAD Electrical, follow the instructions given below:Firstly, Launch AutoCAD ElectricalSecondly, select the Schematic tab, and then select the Wire Components tool palette.

View ViewCube in DetailThe ViewCube tool is a common feature in AutoCAD that allows the user to quickly manipulate the view of 3D models. ViewCube is essentially a 3D navigation tool that provides visual references to orientation and view manipulation in AutoCAD. In addition, ViewCube allows you to choose from preset standard views. It helps users to quickly find and restore views and navigate between views.

Advantages of AutoCAD ElectricalAutoCAD Electrical is a highly efficient tool that has several advantages, including the following:It is possible to generate error-free electrical schematics and bills of materials (BOM)It helps to improve productivity by providing various useful features like automatic report generation and smart symbols libraries.

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Scripting Code: Use any coding platform (matlab, python, c++), with a preference for python. For the circuit shown belwo, use Nodal analysis in developing a code that can be used to calculate a) VI1 (

Answers

In this circuit, there are 2 input voltages (V1 and V2) and 4 resistors (R1, R2, R3, and R4). The goal is to calculate the value of VI1 using nodal analysis.

Nodal analysis, also known as the node-voltage method, is a technique for solving electrical circuits. It involves writing down Kirchhoff's current law (KCL) for each node in the circuit. The node voltages are then solved for using a system of linear equations.

Here is a Python code for nodal analysis that can be used to calculate VI1 in this circuit:```
import numpy as np
# Define circuit parameters
R1 = 2.0
R2 = 3.0
R3 = 4.0
R4 = 5.0
V1 = 10.0
V2 = 5.0
# Define the conductance matrix and current vector
G = np.array([[1/R1+1/R2+1/R3, -1/R2, 0], [-1/R2, 1/R2+1/R4, -1/R4], [0, -1/R4, 1/R4]])
I = np.array([[V1/R1], [0], [V2/R4]])
# Solve for the node voltages
V = np.linalg.solve(G, I)
# Calculate VI1
VI1 = (V[0]-V[2])/R1
print("VI1 =", VI1)

The above Python code defines the circuit parameters (R1, R2, R3, R4, V1, and V2) and then defines the conductance matrix and current vector using the values of the resistors and input voltages.

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Write MATLAB code to generate random numbers matrix [3.3], it will replace all the negative numbers of that matrix. by 0. 9.

Answers

The given task requires writing MATLAB code to create a random numbers matrix [3.3]. The code should be able to replace all the negative numbers in the matrix with 0.9.

Initialize the matrix of size [3,3] using the rand function provided in MATLAB. The rand function is a built-in function in MATLAB used to generate random numbers.  For this, we will use the find function, which finds the indices of array elements that meet a certain condition, and then replace them with the value [tex]0.9.Mat(find(Mat < 0)) = 0.9[/tex]

Display the updated matrix using the disp function provided in [tex]MATLAB.disp(Mat)[/tex] The complete code is shown below:

[tex]CodeMat = rand(3,3);Mat(find(Mat < 0)) = 0.9;disp(Mat)[/tex]

In conclusion, the code provided above can be used to generate a random numbers matrix [3.3] . The rand function in MATLAB was used to initialize the matrix with random values between 0 and 1. Then, the find function was used to identify the negative numbers in the matrix and replace them with 0.9. Finally, the updated matrix was displayed using the disp function in MATLAB.

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If a solar cell has Voc of 0.5V and Isc of 2A, draw the IV curve for the solar cell clearly showing Isc and Isc. If a solar module is constructed by wiring 72 cells in series with the cell characteristics explained in the previous sentence, draw the IV curve for the module clearly indicating the value of Isc and Voc for the module. If the fill factor (FF) for the module is 0.9, determine the maximum power for the module. Then plot the power curve for the module in the same IV curve for the module.

Answers

IV curve for the solar cell: The IV curve for the solar cell can be drawn as follows:

The IV curve for the solar module can be obtained by connecting the IV curves of all the solar cells in series. The IV curve for the solar module can be shown as follows: Value of Isc and Voc for the module: The value of Isc for the module can be calculated by adding the current of each solar cell. Therefore, Isc for the module can be calculated as:Isc module = 72 × 2AIsc module = 144A

The value of Voc for the module will be the same as that for the solar cell, which is 0.5V.Maximum power for the module: The maximum power for the module can be calculated as:Pmax = FF × Isc × VocPmax = 0.9 × 144A × 0.5VPmax = 64.8WPower curve for the module: The power curve for the module can be obtained by multiplying the current and voltage values at different points of the IV curve.

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Find the transfer function of the given translational mechanical
system shown below. Provide a solution that will match to
the answer key given below

Answers

The given translational mechanical system is shown below. The transfer function of this system can be determined as follows:Firstly, the free-body diagram of the mechanical system is shown below, in which F is the input force applied to the mass m and x is the output position of the mass.

Therefore, we can write the force balance equation for the mass as:

F - kx - c(dx/dt) - mg = m(d²x/dt²)

where k, c, and m are the spring constant, damping constant, and mass of the mechanical system respectively.

The transfer function can be determined by taking the

Laplace transform of the above equation as follows:F(s) - kX(s) - csX(s)s - mg = ms²X(s)

Rearranging the above equation,

we get:X(s)/F(s) = 1/[ms² + cs + k + mg/s]

Therefore, the transfer function of the given translational mechanical system is X(s)/F(s) = 1/[ms² + cs + k + mg/s].

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12 of 15
What is a datasheet form that displays linked records in a
table-like format, located beneath your form?
Secondary Form
Property Sheet
Combo Box
Subform
Q

Answers

Subform is a datasheet form that displays linked records in a table-like format, located beneath your form.What is a subform?A  subform is a form that is embedded in another form, which is referred to as the main form.

It is frequently used in database applications to display records in a one-to-many relationship, where a single record from the main form is linked to one or more related records in the subform.A subform is a datasheet form that shows linked records in a table-like format, located beneath your form. To display records that are linked to a form's record source, you can use a subform.

The subform's record source may be different from the main form's record source. The subform should show the fields from the record source it's based on, but it may also include other fields.What is a subform used for?A subform is utilized in Access when you need to display data that is related to the primary table. A subform is a very handy method for displaying and entering related data. A subform can show data from a related table, or it can show an entire table. Subforms make data entry simpler by automating certain operations such as adding related data for the fields already filled in.

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Convert the following analog filter to digital one using the step invariant method:

(s)=1/(s+10)

Using the bilinear transformation, design a Low pass digital filter with a -3 dB cut off frequencyΩ=0.5 π.

Answers

The bilinear transformation or Tustin's method is used to convert continuous-time filters to discrete-time filters. It is most commonly used to convert an analog filter to a digital filter. The conversion process involves mapping the continuous-time frequency response to the discrete-time frequency response.

The method is based on the substitution of s with the bilinear transformation (z-1)/(z+1).Conversion of analog filter to digital filter using Step invariant method Step invariant method or Impulse Invariant Method is used to convert the analog filter to digital filter. This method is based on replacing the Laplace transform variable s by the Z transform variable z. The frequency scaling factor in this method is determined by the ratio of the sampling frequency and the cutoff frequency of the analog filter.

The transfer function of the analog filter is given by,s = 1 / (s + 10)The transfer function of the digital filter using the step invariant method is given by [tex]H(Z) = (1 + z^-1) / (1 - 0.8187 z^-1)[/tex]The z-transform of the impulse response of the analog filter is given by[tex]h(n) = 10e^-10n[/tex] u(n)The impulse response of the digital filter can be obtained from the impulse response of the analog filter using the step invariant method, which is given byh(n) = (10/2) (δ(n) - δ(n-2)).

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5. Please show the peak inverse voltage of bridge rectifier (1 pt)

Answers

A bridge rectifier is a rectification circuit in which the transformer's secondary voltage is fed to a bridge made up of four diodes.

In a bridge rectifier, the peak inverse voltage (PIV) is the maximum voltage that appears across each diode in the circuit when it is in the reverse-biased condition.

What is Peak Inverse Voltage?

Peak inverse voltage is abbreviated as PIV and is defined as the maximum value of the reverse voltage that a diode can withstand without conducting.

If a reverse voltage greater than the PIV rating is applied to a diode, it will break down.

In a rectifier circuit, the PIV rating of diodes is a critical factor.

The peak inverse voltage (PIV) of a bridge rectifier is equal to the maximum voltage that can appear across any of its diodes when it is in the reverse-biased state.

It is two times the maximum voltage of the secondary winding of the transformer.

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1)Which module in a digital system performs data processing operations?
2)Which module in a digital system sequences data processing operations?

Answers

1) In a digital system, Arithmetic Logic Unit (ALU) module performs data processing operations. It is a digital circuit that performs arithmetic and bitwise operations on binary numbers. It is an integral part of the central processing unit (CPU) of a computer system.

ALU performs basic arithmetic operations like addition, subtraction, multiplication, division, and bitwise operations like logical operations, shift operations, etc. It takes two inputs and performs operations on them as per the instruction set architecture. After performing the operation, it stores the output in the designated register or memory location.
2) In a digital system, Control Unit (CU) module sequences data processing operations. It is a digital circuit that directs the flow of data between the CPU and other components of the computer system.

It fetches the instructions from the memory, decodes them, and then executes them. CU is responsible for controlling the operation of the ALU and other components of the CPU. It reads the program counter and determines the address of the next instruction to be fetched. It interprets the instruction and generates the appropriate control signals to execute it. CU is responsible for maintaining the order of execution of instructions and ensuring that they are executed correctly.

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(a) Devise the transistor-level circuit diagram of a single 4-input CMOS logic gate to implement the following logic function:

OP = Ā B (C+D)
where A, B, C and D are the logic gate inputs and O/P is the logic gate output.

Note: You need to provide a brief explanation of the approach you have followed to design the circuit diagram.
(b) Design a stick diagram of the logic gate from (a), using dual-well, CMOS technology. Include wells, well taps, contact cuts, routing of power and GND. Use colour coding and/or detailed annotations to represent the wires in the different layers.
(c) The logic gate from (a) needs to drive a capacitive load of 50 ff with a rise- time and fall-time of 0.5 ns. If the length of all transistors is 0.2 μm, calculate the required widths for all P-type and all N-type MOSFETs in your logic gate to achieve the required edge-speeds. Clearly show the calculation steps of your solution. Assume VDD = 5 V, Kn = 50 μA/V², Kp = 20 μA/V²

Answers

a) To implement the logic function OP = Ā B (C+D) with CMOS logic, the following steps are taken:

The NMOS network (C + D) is wired to a P-input and the two NMOS networks A and B are wired in series to an N-input.

The two networks are connected to a P-input that represents the result of the AND function of the two series connected NMOS networks.

The complete logic circuit for the function OP = Ā B (C+D) is given in the figure below.

b) A stick diagram is a simple schematic diagram of a CMOS logic gate that illustrates the physical layout of the circuit elements.

A stick diagram for a CMOS four-input logic gate is given in the figure below.

The stick diagram includes all the necessary well connections, well taps, contact cuts, and power and ground routes for the device.

c) For the CMOS logic gate with 50 ff of load capacitance, the required rise and fall times are 0.5 ns.

For all N-type and P-type MOSFETs in the logic gate, the length of the MOSFET is 0.2 μm.

The width of the MOSFET is calculated using the following formula:

[tex]W=\frac{2}{Kn}\frac{CL}{V_{DD}^2}}[/tex]

Where W is the MOSFET width, Kn is the MOSFET's transconductance parameter, C is the load capacitance, L is the transistor length, and VDD is the supply voltage.

The MOSFET width is calculated separately for N-type and P-type MOSFETs in the circuit, and the resulting widths are as follows.

The calculation steps are also given. N-Type MOSFET:

[tex]{W_n=\frac{2}{50*10^{-6}}\frac{50*10^{-15}}{(5)^2}}=1600 \mu m[/tex]

P-Type MOSFET:

[tex]W_p=\frac{2}{20*10^{-6}}\frac{50*10^{-15}}{(5)^2}[/tex]

=[tex]4000 \mu m[/tex]

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Write a script that allows you to calculate relative
groundwater discharge on different planets using Python, holding
everything else the same other than the gravitational constant in
Darcy’s Law. Y
Assignmento.py X import random import math #Set up inputs and outputs A = 100 #area in unknown units I = -0.001 #gradient #Create a dictionary of unit conversions dict_meter_conversion = {'X':

Answers

The script below calculates relative groundwater discharge on different planets using Python by considering the gravitational constant in Darcy's Law.

```python

import random

import math

# Set up inputs and outputs

A = 100  # Area in unknown units

I = -0.001  # Gradient

# Create a dictionary of unit conversions

dict_meter_conversion = {'Earth': 1, 'Mars': 0.3794, 'Moon': 0.1655}

# Define the gravitational constants for different planets

dict_gravity_constant = {'Earth': 9.81, 'Mars': 3.71, 'Moon': 1.62}

# Randomly select a planet

planet = random.choice(list(dict_gravity_constant.keys()))

# Calculate relative groundwater discharge

g = dict_gravity_constant[planet]

conversion_factor = dict_meter_conversion[planet]

Q = -g * A * I * conversion_factor

# Print the result

print(f"The relative groundwater discharge on {planet} is {Q} units.")

```

In this script, we define the area (A) and the gradient (I) as inputs. We also create dictionaries for unit conversions and gravitational constants for different planets. The script randomly selects a planet and uses its respective gravitational constant and unit conversion factor to calculate the relative groundwater discharge (Q) using Darcy's Law. Finally, the script prints the result, indicating the planet and the calculated discharge.

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For the circuits below, find the Thevenin and Norton Equivalents with respect to terminals a-b. (a)

Answers

Thevenin Equivalent To get the Thevenin equivalent with respect to the terminals a-b in the circuit shown below, we need to first remove the load resistor which is connected between the two terminals.

After doing this we will be left with the following circuit To get the Thevenin equivalent circuit, we have to determine the open-circuit voltage,  Voc  and the equivalent resistance, Rth. The open-circuit voltage, Voc The open-circuit voltage.

Thevenin equivalent circuit is shown below Norton We can find the Norton equivalent circuit with respect to the terminals a-b of the circuit by finding the short-circuit current, Isc, flowing through the two terminals when a short circuit is applied across them.

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When driven as a generator at 952 rpm, the machine delivers 32 kW at 400 V. Calculate Generator developed power 1.1 1.2 Generator efficiency 1.3 Developed power when running as a motor taking 32 kW from 400 V 1.4 Full load motor torque In the context of the employee selection process, which of the following statements is true of references and background checks? How many months would it take you to repay \( \$ 50000 \) by making payments of \( \$ 750 \) at the end of every month at an interest rate of \( 6 \% \) compounded monthly? Even though most products and services use multiple IMC's in their strategy, certain ones are usually more relevant than others. For each of the following elements of the integrated marketing communications strategy, select a product or service that you believe is the best match for that element and the one that would be the worst and why. You only need to choose 1 from each category so you will have 7 best and 7 worst examples and why. Here's an example of the assignment's expectations. For the #2 category: Point of purchase displays: Best: Twinnings Christmastea varieties. This product is not available all year so attention must be brought to the product and the customer educated as to its limited availability. The display will also promote impulse buying. Worst: 24 hour Physician Urgent Care office. Intangible services are not conducive to displays as information does not attract attention like a tangible product would. Urgent Care would also not be an impulse buy. Categories: 1. Personal selling 2. Sales promotions (i.e. coupons, rebates, samples, point of purchase displays, contests, sweepstakes) 3. Traditional direct marketing (i.e. catalogs, mailers, or telemarketing) 4. E mail and mobile Direct marketing 5. Website, blog, or social media 6. Advertising 7. Public Relations This is 2 parts of one of my practice problems. The current age used for the first question is 30 and the retirement age is 58. The amount wanted to save is $1,060,123.a) You and your family would like to have a $X saving at the end of the year you retire. You are planning to retire at the age of Y. Given your age today (please specify an age, which doesnt have to reflect your true age), and planning to make $400 monthly deposits, what rate should you earn annually to reach your retirement goal? (Hint: Use Rate function)b) You would like to buy a car with a loan that charges APR of 3.69% per year compounded monthly, (3.69%/12 per month). You borrow $40,000 and promised to pay monthly in 5 years (5*12=60 months). What would be your monthly payments?Thank you!