Use the future value formula to find the indicated value. n=27, i=0.04; PMT= $108, FV=? FV=?
Use the future value formula to find the indicated value. FV =9,000; i = 0.04, PMT = $600; n = ? n= (Round up to the nearest integer as needed.)
Use the future value formula to find the indicated value. FV= $5753; n=21; i=0.06; PMT= ? PMT= $ _______
Use the future value formula to find the indicated value. fv 5,000 i= 0.05 pmt=200 n=?
use the future value formula to find the indicated value FV=2,000, i=0.02, PMT=$200, n=?
use future value formula to find the indicated value. FV=9000, i=0.03, PMT=300, n=?
Use the future value formula to find the indicated value. FV=$4870; n=14; i=0.07 PMT=?
Use the future value formula to find the indicated value FV= 12,000 I = 0.03 PMT= $600 N= ?
Use the future value formula to find the indicated value. FV= 10,000; i= 0.03; PMT= $200; n= ? n= ( Round up to the nearest integer as needed.)
Use the future value formula to find the indicated value. FV = 4,000; i = 0.03; PMT = $800; n = ? (Round up to the nearest integer as needed.)
To calculate the future value of an annuity (savings plan), we use the formula: FV = PMT[(1 + rin) nt) - 1]/(r/n) where PMT is the payment amount that is deposited on a regular basis, r is the APR, n is the number of regular payments made each year and FV is the future value after t years. At the age of 25, Kyle starts an IRA (Individual Retirement Account) to save for retirement. He deposits $200 into the account...