Order ID | 53563633773 |
Type | Essay |
Writer Level | Masters |
Style | APA |
Sources/References | 4 |
The perfect number of Pages to Order | 5-10 Pages |
Admissions Analysis: Excel Formulas and Charts
Project Description:
You work in the Admissions Office for a small regional university in Massachusetts Your assistant entered a list of college applicants for the Fall 2021 semester. You determine if a student qualifies for early admission or early rejection based on SAT and GPA. After determining the immediate admissions and rejections, you calculate a total score based on SAT and GPA to determine regular admissions and rejections.
Start Excel. Download and open the file named Exp19_Excel_Ch07_ML1_Admissions.xlsx. Grader has automatically added your last name to the beginning of the filename.
First, you want to calculate the number of days between the Initial Deadline and the Date Received.
In cell D11, insert the DAYS function using the Initial Deadline that is stored in cell B8 and the Date Received that is stored in cell C11. Use mixed and relative references correctly.
Copy the DAYS function from cell D11 to the range D12:D67. A negative value indicates the application was received after the initial deadline.
Next, you want to determine if a student should be admitted early.
In cell G11, insert the IF function with a nested AND function to display either Yes or No in the Admit Early column. The university admits a student early if that student meets both the Early Admission criteria for the SAT (cell B3) and GPA (cell B4). That is, the student’s SAT score must be 1400 or higher, and the GPA must be 3.80 or higher. Use relative and mixed references to the cells in the Admission Criteria range. Based on the requirements, the first student, 2020005, will be admitted early.
Now that you determined which students are admitted early, you want to determine if a student should be rejected early.
In cell H11, enter the IF function with a nested OR function to display either Yes or No in the Reject Early column. The university rejects a student early if that student has either an SAT score less than 800 (cell C3) or a GPA below 1.80 (cell C4). Use relative and mixed references to the cells in the Admission Criteria range.
Use column I to calculate an applicant’s admission score.
In cell I11, enter a formula to calculate an applicant’s admission score. Multiply the GPA (cell F11) by the multiplier (cell B7) and then add that result to the SAT score (cell E11). The first score is 3925. Use relative and mixed references appropriately.
In column J, you want to display Early Admission, Early Rejection, Admit, or Reject, respectively, to indicate the final decision.
In cell J11, enter the IFS function. If Admit Early is Yes, display the text Early Admission. If Reject Early is Yes, display the text Early Rejection. If the score is greater than the threshold score in cell B6, display Admit. If the score is less than or equal to the threshold score in cell B6, display Reject. Use mixed reference to cell B6.
You are ready to copy the formulas down their respective columns.
Copy the formulas down the Admit Early, Reject Early, Score, and Final Decision columns.
You want to enter formulas in the Summary Data section to summarize key points. First, you want to determine the number of Early Admissions and the number of Admits.
In cell H3, insert the COUNTIF function to count the number of Early Admissions in the range J11:J67. Use mixed reference for the Range argument and use cell E3 as the condition. Copy the function to cell H4. It should adjust automatically to count the number of Admit in the range J11:J67.
Next, you want to calculate the average SAT score for Early Admissions.
In cell I3, enter the AVERAGEIF function to calculate the average SAT score in the range E11:E67 where Final Decisions in the range J11:J67 are Early Admission. Use mixed references so that the row numbers in the ranges do not change when copied down. Use a relative reference to cell E3 for the condition.
You want to calculate the average GPA score for Early Admissions.
In cell J3, insert the AVERAGEIF function to calculate the average GPA in the range F11:F67 where Final Decisions in the range J11:J67 are Early Admission. Use mixed references so that the row numbers in the ranges do not change when copied down. Use a relative reference to cell E3 for the condition.
Apply Number format with zero decimal places to cell I3. Then, copy the functions in the range I3:J3 to the range I4:J4.
You want to count the number of applications that meet two conditions.
In cell H5, insert the COUNTIFS function to count the total number of applications that meet
two conditions: Scores in the range I11:I67 are greater than or equal to 3500 and Final Decisions in the range J11:J67 are Early Admissions (cell E3).
You want to count the number of applications that meet two more conditions.
In cell H6, insert the COUNTIFS function to count the number of applications that meet
two conditions: Residences in the range B11:B67 are In State and Final Decisions in the
range J11:J67 are Early Admissions (cell E3).
You want to identify the highest score based on two conditions.
In cell H7, insert the MAXIFS function to identify the highest score in the range I11:I67 that meets two conditions: Residences in the range B11:B67 are In State and Final Decisions in the range J11:J67 are Early Admissions (E3).
In cell H8, insert the AVERAGEIFS function to calculate the average score in the range I11:I67 that meets two conditions: Residences in the range B11:B67 are In State and Final Decisions in the range J11:J67 are *Adm*. Use the asterisks as wildcards so that it includes both Early Admission and Admit.
In cell I5, insert the AVERAGEIFS function to calculate the average SAT score that meets two conditions: Scores in the range I11:I67 are greater than or equal to 3500 and Final Decisions in the range J11:J67 are Early Admissions (cell E3). Use mixed references appropriately.
In cell I6, insert the AVERAGEIFS function to calculate the average SAT score that meets two conditions: Residences in the range B11:B67 are In State and Final Decisions in the range J11:J67 are Early Admissions (cell E3). Use mixed references appropriately.
Copy the functions from the range I5:I6 to the range J5:J6.
You want to insert a map that depicts admissions by state.
Display the Map worksheet. Create a map chart from the range A1:B5. Change the chart title to Admissions by State. Display the Format Data Series task pane and select Only regions with data as the map area.
You want to place the top-left corner of the map in cell C1 and change the map size.
Cut the map and paste it in cell C1. Set 3.12″ height and 3.26″ width for the map.
Create a footer with your name on the left side, the sheet name code in the center, and the file name code on the right side on all sheets.
Save and close Exp19_Excel_Ch07_ML1_Admissions.xlsx. Exit Excel. Submit the file as directed.
Loan Amortization and Investment Analysis in Excel
Project Description:
Your family is considering purchasing a house and investing in a business venture. You started the structure for a loan amortization table and the investment table. You will complete the first five years of the 20-year loan amortization table. To complete the table, you will enter formulas to calculate the beginning balance, monthly payment, and ending balance. You will use financial functions to calculate the interest and principal paid for each monthly payment. In addition, you want to calculate cumulative interest after the first year, total interest over the life of the loan, and the amount of principal paid after the first year. You also want to see how many months half or more of the payment is for interest. You will then focus your attention on completing an investment table using date functions, formulas, and a financial function to calculate the future value of the investment.
Start Excel. Download and open the file named Exp19_Excel_Ch07_ML2_Finances.xlsx. Grader has automatically added your last name to the beginning of the filename.
The first step is to enter a formula to reference the loan amount for the beginning balance for the first payment.
In cell B9, enter a formula that references cell D2.
A loan amortization table usually contains a column that displays the monthly payment for each row.
In cell C9, enter a formula to reference the monthly payment in cell D3. Use a mixed reference and copy the formula to the range C10:C68.
The monthly payment indicates the total amount of the payment, which includes principal and interest. Interest is calculated based on the loan amount, the rate, the payment number, and the number of payments.
In cell D9, enter the IPMT function to calculate the interest paid for the first month using mixed cell references to the input area for the Rate, Nper, and PV arguments and using cell A9 for the Per argument. Make sure the result is a positive value and copy the function to the range D10:D68.
After calculating the interest paid, the rest of the monthly payment repays the principal.
In cell E9, enter the PPMT function to calculate the principal paid for the first month using mixed cell references to the Calculations area for the Rate, Nper, and PV argument and using cell A9 for the Per argument. Make sure the result is a positive value and copy the function to the range E10:E68.
The last column of the loan amortization table calculates the ending balance.
In cell F9, calculate the ending balance by subtracting the Principal Repayment from the Beginning Balance in row 9. Copy the formula to the range F10:F68.
The beginning balance for each payment is calculated and entered in column B.
In cell B10, enter a formula that references the first month’s ending balance in cell F9. Copy the formula to the range B11:B68.
Ensure that Accounting Number Format is applied to the range B9:F68.
You want to calculate the total interest paid for the first year.
In cell F2, insert the CUMIPMT function to calculate the cumulative interest paid for the first year. Use A9 for the Start_period argument and B6 for the End_period argument. Use 0 as the Type argument. Make sure the result is a positive value.
Now you want to calculate the total interest paid for the entire loan.
In cell F3, insert the CUMIPMT function to calculate the total cumulative interest paid for the entire loan. Use A9 for the Start_period and D6 for the End_period arguments. Make sure the result is a positive value.
You want to calculate the cumulative principal paid for the first year.
In cell F4, insert the CUMPRINC function to calculate the cumulative principal paid for the first year. Use A9 for the Start_period and B6 for the End_period arguments. Make sure the result is a positive value.
In cell F5, insert the COUNTIF function to count the number of payment periods in which the interest in the loan amortization table is higher than one-half of the monthly payment (cell D4).
Apply General number format to cell F5.
You want to extract the year and use it to determine the payoff year.
Display the Investment sheet. In cell D4, insert the YEAR function to extract the year from cell D3 and add the number of years (cell B3). You will change the format of the result in the next step.
You need to format the result in cell D4 as a number.
Ensure that General number format is applied to cell D4.
At the end of each period, you will add $125 to the investment.
In cell D7, enter a formula that references cell D2. Use a mixed reference to ensure the row number does not change. Copy the formula to the range D8:D54.
You want to calculate the interest earned per period.
In cell C7, multiply the beginning balance in cell B7 to the result of dividing the APR by the No. of Pmts per Year. Use mixed and relative cell references. Copy the formula to the range C8:C54.
You are ready to calculate the ending balance for each payment period.
In cell E7, add the Beginning Balance, Interest Earned, and End-of-Period Investment for row 7. Copy the formula to the range E8:E54.
You will use a nested function to calculate the dates in column A.
In cell A8, create a DATE function with a nested YEAR function, a nested MONTH function and then add 1 to increment the month, and a nested DAY function. The function arguments should reference the date on the previous row.
Copy the function from cell A8 to the range A9:A54 but preserve the fill formatting.
In cell E56, insert the FV function to calculate the future value of the investment use references to the respective cells in the input area for the arguments. Make sure the result is positive. Leave the Type argument empty.
Create a footer with your name on the left side, the sheet name code in the center, and the file name code on the right side of both sheets.
Save and close Exp19_Excel_Ch07_ML2_Finances.xlsx. Exit Excel. Submit the file as directed.
|
||||||||||||||||||||||||||||||||
GET THIS PROJECT NOW BY CLICKING ON THIS LINK TO PLACE THE ORDERCLICK ON THE LINK HERE: https://www.perfectacademic.com/orders/ordernowAlso, you can place the order at www.collegepaper.us/orders/ordernow / www.phdwriters.us/orders/ordernow |
||||||||||||||||||||||||||||||||
|