20 likes | 20 Views
DeVry COMP 220 iLab 2 Resistor Lab Report Latest<br>Just Click on Below Link To Download This Course:<br>https://www.devrycoursehelp.com/product/devry-comp-220-ilab-2-resistor-lab-report-latest/<br>DeVry COMP 220 iLab 2 Resistor Lab Report Latest<br>COMP 220 iLab 2 Resistor Lab Report and Source Code<br>Scenario and Summary<br>This lab requires you to create a multifile C project in order to design and implement an object-oriented program using a class to model the characteristics and function of a resistor.<br>Deliverables<br>
E N D
DeVry COMP 220 iLab 2 Resistor Lab Report Latest Just Click on Below Link To Download This Course: https://www.devrycoursehelp.com/product/devry-comp-220-ilab-2-resistor-lab- report-latest/ Or Email us mailto:help@devrycoursehelp.com DeVry COMP 220 iLab 2 Resistor Lab Report Latest COMP 220 iLab 2 Resistor Lab Report and Source Code Scenario and Summary This lab requires you to create a multifile C++ project in order to design and implement an object-oriented program using a class to model the characteristics and function of a resistor. Deliverables Submit a single Notepad file containing the source code for Exercise 1 to the Dropbox for Week 2. Your source code should use proper indentation and be error free. Be sure that your last name and the lab number are part of the file name; see the following example: YourLastName_Lab1.txt. Each program should include a comment section that includes (at a minimum) your name, the lab and exercise number, and a description of what the program accomplishes. Submit a lab report (a Word document) containing the following information to the Dropbox for Week 2. Include your name and the exercise number. Specification: Include a brief description of what the program accomplishes, including its input, key processes, and output. Test Plan: Include a brief description of the method you used to confirm that your program worked properly. If necessary, include a clearly labeled table with test cases, predicted results, and actual results. Summary and Conclusions: Include a summary of what the lab demonstrated and any conclusions drawn from the testing of the lab program. Answers to Lab Questions: Answer any and all lab questions included in the lab steps. Summary: Write a statement summarizing your predicted and actual output. Identify and explain any differences. Conclusions: Write at least one nontrivial paragraph that explains, in detail, either a significant problem you had and how you solved it or, if you had no significant problems, something you learned by doing the exercise. Each lab exercise should have a separate section in the lab-report document. Your lab grade will be based upon the formatting of your source code; the use of meaningful identifiers; the extent of internal documentation; the degree to which an exercises’ specifications are met; and the completeness of your lab report. i L A B S T E P S STEP 1: Create a Multifile Project
Objective: Create a C++ console application that will model the characteristics of a resistor. Create a multifile project. Create and add to the project an h file containing the resistor-class definition. Create and add to the project a cpp file containing the implementation of the class-member functions. Create and add to the project a ccp file containing the main() function, which will instantiate a resistor object and test its member functions. STEP 2: Required Class Members The resistor class will, at minimum, have members that do the following. store the nominal resistance value of a resistor store the tolerance of a resistor initialize any and all nominal-resistance values to correct, EIA, nonzero values that are greater than 0 and less than 1,000,000 ohms initialize any and all resistance-tolerance values to correct, E12, E24, E48, or E96 resistance-tolerance values allow the nominal-resistance and tolerance values of a resistor object to be changed by the user All member functions should have a test message stating the name of the function. All the test messages should be displayed or not displayed, depending on the value of a Boolean variable declared in main(). If the Boolean , display the message. If the Boolean , do not display the message. STEP 3: Program Operations Function main() should instatiate two objects of class resistor. Function main() should display the current values of all resistor objects. Function main() should also calculate and display the minimum and maximum in-tolerance resistance values of each resistor object from the resistor data members. Function main() should allow the user to change the values of the nominal resistance and the resistor tolerance of both resistor objects, and it should also correctly handle out of numeric-range input. Main() is also responsible for making sure that the user can successfully enter only correct, EIA resistance and tolerance values. The user should be given the following data-entry choices: accept current EIA values for resistance and tolerance; The function main() should display the new, modified values of the resistor object, including the new min and max in-tolerance resistance values. The function main() should be executed twice: once with the test messages displayed and once without. STEP 4: Lab Questions You are not required to copy the question text into your document, but all answers should be listed with the question number they answer. List the complete reference-source information for where you found the EIA standard resistor value and tolerance information. How was this reference discovered and where? The constructor requires the initialization values for the nominal resistance and the tolerance when an object is instantiated to be a correct E-series resistance and tolerance combination. Describe how this was accomplished in your program design and implementation. In the lab, you were required to provide mutator functions to change the nominal-resistance and tolerance values of a resistor object.Describe how this was accomplished so that the user could not enter an invalid nominal-resistance and E-series tolerance combination. Describe how this process was different and/or similar to how you implemented this validation in the class constructor. Download File Now