Heels, a shoe manufacturer, is evaluating the costs and benefits of new equipment that would custom fit each pair of athletic shoes. The customer would have his or her foot scanned by digital computer equipment; this information would be used to cut the raw materials to provide the customer a perfect fit. The new equipment costs $101.000 and is expected to generate an additional $40,000 in cash flows for five years. A bank will make a $101.000 loan to the company at a 12% Interest rate for this equipment's purchase. Compute the recovery time for both the payback period and break-even time. (PV of $1. FV of $1. PVA of $1, and FVA of $ 1) (Use approprlate factor(s) from the tables provided.) Complete this question by entering your answers in the tabs below. Payback Period Break even time Compute the recovery time for the payback period. Payback Period Choose Denominator: Choose Numerator: Payback Period Payback period Heels, a shoe manufacturer, is evaluating the costs and benefits of new equipment that would custom fit each pair of athletic shoes. The customer would have his or her foot scanned by digital computer equipment, this information would be used to cut the raw materials to provide the customer a perfect fit. The new equipment costs $101,000 and is expected to generate an additional $40,000 in cash flows for five years. A bank will make a $101,000 loan to the company at a 12% Interest rate for this equipment's purchase. Compute the recovery time for both the payback period and break-even time. (PV of $1. FV of $1. PVA of $1, and FVA of $1) (Use appropriate factor(s) from the tables provided.) Complete this question by entering your answers in the tabs below. Payback Period Break even time Compute the recovery time for the break-even time. (Cumulative net cash outflows must be entered with a minus sign. Round our Break-even time answer to 1 decimal place.) Chart Values are Based on: % Year Cash Inflow (Outflow) PV Factor - Present Value Cumulative Present Value of Inflow (Outflow) 0 S (101.000) 1.0000 = S (101.000) S (101.000) 1 = 2 = 3 4 5 TABLE B.1 Present Value of 1 p=1/(1 + i)" Rate Periods 1% 2% 3% 4% 5% 6% 7% 8% 9% 10% 12% 15% 1 7 8 9 10 11 12 13 14 15 16 17 18 19 20 25 30 35 40 0.9901 0.9803 0.9706 0.9610 0.9515 0.9420 0.9327 0.9235 0.9143 0.9053 0.8963 0.8874 0.8787 0.8700 0.8613 0.8528 0.8444 0.8360 0.8277 0.8195 0.7798 0.7419 0.7059 0.6717 0.9804 0.9612 0.9423 0.9238 0.9057 0.8880 0.8706 0.8535 0.8368 0.8203 0.8043 0.7885 0.7730 0.7579 0.7430 0.7284 0.7142 0.7002 0.6864 0.6730 0.6095 0.5521 0.5000 0.4529 0.9709 0.9426 0.9151 0.8885 0.8626 0.8375 0.8131 0.7894 0.7664 0.7441 0.7224 0.7014 0.6810 0.6611 0.6419 0.6232 0.6050 0.5874 0.5703 0.5537 0.4776 0.4120 0.3554 0.3066 0.9615 0.9246 0.8890 0.8548 0.8219 0.7903 0.7599 0.7307 0.7026 0.6756 0.6496 0.6246 0.6006 0.5775 0.5553 0.5339 0.5134 0.4936 0.4746 0.4564 0.3751 0.3083 0.2534 0.2083 0.9524 0.9070 0.8638 0.8227 0.7835 0.7462 0.7107 0.6768 0.6446 0.6139 0.5847 0.5568 0.5303 0.5051 0.4810 0.4581 0.4363 0.4155 0.3957 0.3769 0.2953 0.2314 0.1813 0.1420 0.9434 0.8900 0.8396 0.7921 0.7473 0.7050 0.6651 0.6274 0.5919 0.5584 0.5268 0.4970 0.4688 0.4423 0.4173 0.3936 0.3714 0.3503 0.3305 0.3118 0.2330 0.1741 0.1301 0.0972 0.9346 0.8734 0.8163 0.7629 0.7130 0.6663 0.6227 0.5820 0.5439 0.5083 0.4751 0.4440 0.4150 0.3878 0.3624 0.3387 0.3166 0.2959 0.2765 0.2584 0.1842 0.1314 0.0937 0.0668 0.9259 0.8573 0.7938 0.7350 0.6806 0.6302 0.5835 0.5403 0.5002 0.4632 0.4289 0.3971 0.3677 0.3405 0.3152 0.2919 0.2703 0.2502 0.2317 0.2145 0.1460 0.0994 0.0676 0.0460 0.9174 0.8417 0.7722 0.7084 0.6499 0.5963 0.5470 0.5019 0.4604 0.4224 0.3875 0.3555 0.3262 0.2992 0.2745 0.2519 0.2311 0.2120 0.1945 0.1784 0.1160 0.0754 0.0490 0.0318 0.9091 0.8264 0.7513 0.6830 0.6209 0.5645 0.5132 0.4665 0.4241 0.3855 0.3505 0.3186 0.2897 0.2633 0.2394 0.2176 0.1978 0.1799 0.1635 0.1486 0.0923 0.0573 0.0356 0.0221 0.8929 0.7972 0.7118 0.6355 0.5674 0.5066 0.4523 0.4039 0.3606 0.3220 0.2875 0.2567 0.2292 0.2046 0.1827 0.1631 0.1456 0.1300 0.1161 0.1037 0.0588 0.0334 0.0189 0.0107 0.8696 0.7561 0.6575 0.5718 0.4972 0.4323 0.3759 0.3269 0.2843 0.2472 0.2149 0.1869 0.1625 0.1413 0.1229 0.1069 0.0929 0.0808 0.0703 0.0611 0.0304 0.0151 0.0075 0.0037 *Used to compute the present value of a known future amount. For example: How much would you need to invest today at 10% compounded semiannually to accumulate $5,000 in 6 years from today? Using the factors of n = 12 and i = 5% (12 semiannual periods and a semiannual rate of 5%), the factor is 0.5568. You would need to invest $2.784 today ($5.000 x 0.5568). TABLE B.2 Future Value of 1 f= (1 + i)" Rate 7% Periods 1% 2% 3% 4% 5% 6% 8% 9% 10% 12% 15% 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 25 30 35 40 1.0000 1.0100 1.0201 1.0303 1.0406 1.0510 1.0615 1.0721 1.0829 1.0937 1.1046 1.1157 1.1268 1.1381 1.1495 1.1610 1.1726 1.1843 1.1961 1.2081 1.2202 1.2824 1.3478 1.4166 1.4889 1.0000 1.0200 1.0404 1.0612 1.0824 1.1041 1.1262 1.1487 1.1717 1.1951 1.2190 1.2434 1.2682 1.2936 1.3195 1.3459 1.3728 1.4002 1.4282 1.4568 1.4859 1.6406 1.8114 1.9999 2.2080 1.0000 1.0300 1.0609 1.0927 1.1255 1.1593 1.1941 1.2299 1.2668 1.3048 1.3439 1.3842 1.4258 1.4685 1.5126 1.5580 1.6047 1.6528 1.7024 1.7535 1.8061 2.0938 2.4273 2.8139 3.2620 1.0000 1.0400 1.0816 1.1249 1.1699 1.2167 1.2653 1.3159 1.3686 1.4233 1.4802 1.5395 1.6010 1.6651 1.7317 1.8009 1.8730 1.9479 2.0258 2.1068 2.1911 2.6658 3.2434 3.9461 4.8010 1.0000 1.0500 1.1025 1.1576 1.2155 1.2763 1.3401 1.4071 1.4775 1.5513 1.6289 1.7103 1.7959 1.8856 1.9799 2.0789 2.1829 2.2920 2.4066 2.5270 2.6533 3.3864 4.3219 5.5160 7.0400 1.0000 1.0600 1.1236 1.1910 1.2625 1.3382 1.4185 1.5036 1.5938 1.6895 1.7908 1.8983 2.0122 2.1329 2.2609 2.3966 2.5404 2.6928 2.8543 3.0256 3.2071 4.2919 5.7435 7.6861 10.2857 1.0000 1.0700 1.1449 1.2250 1.3108 1.4026 1.5007 1.6058 1.7182 1.8385 1.9672 2.1049 2.2522 2.4098 2.5785 2.7590 2.9522 3.1588 3.3799 3.6165 3.8697 5.4274 7.6123 10.6766 14.9745 1.0000 1.0800 1.1664 1.2597 1.3605 1.4693 1.5869 1.7138 1.8509 1.9990 2.1589 2.3316 2.5182 2.7196 2.9372 3.1722 3.4259 3.7000 3.9960 4.3157 4.6610 6.8485 10.0627 14.7853 21.7245 1.0000 1.0900 1.1881 1.2950 1.4116 1.5386 1.6771 1.8280 1.9926 2.1719 2.3674 2.5804 2.8127 3.0658 3.3417 3.6425 3.9703 4.3276 4.7171 5.1417 5.6044 8.6231 13.2677 20.4140 31.4094 1.0000 1.1000 1.2100 1.3310 1.4641 1.6105 1.7716 1.9487 2.1436 2.3579 2.5937 2.8531 3.1384 3.4523 3.7975 4.1772 4.5950 5.0545 5.5599 6.1159 6.7275 10.8347 17.4494 28.1024 45.2593 1.0000 1.1200 1.2544 1.4049 1.5735 1.7623 1.9738 2.2107 2.4760 2.7731 3.1058 3.4785 3.8960 4.3635 4.8871 5.4736 6.1304 6.8660 7.6900 8.6128 9.6463 17.0001 29.9599 52.7996 93.0510 1.0000 1.1500 1.3225 1.5209 1.7490 2.0114 2.3131 2.6600 3.0590 3.5179 4.0456 4.6524 5.3503 6.1528 7.0757 8.1371 9.3576 10.7613 12.3755 14.2318 16.3665 32.9190 66.2118 133.1755 267.8635 Used to compute the future value of a known present amount. For example: What is the accumulated value of $3,000 invested today at 8% compounded quarterly for 5 years? Using the factors of n= 20 and i = 2% (20 quarterly periods and a quarterly interest rate of 2%), the factor is 1.4859. The accumulated value is $4.457.70 ($3.000 x 1.4859). P = -=[i-a to li (1 + i)" TABLE B.3: Present Value of an Annuity of 1 Rate Periods 1% 2% 3% 4% 5% 6% 7% 8% 9% 10% 12% 15% 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 0.9901 1.9704 2.9410 3.9020 4.8534 5.7955 6.7282 7.6517 8.5660 9.4713 10.3676 11.2551 12.1337 13.0037 13.8651 14.7179 15.5623 16.3983 17.2260 18.0456 22.0232 25.8077 29.4086 32.8347 0.9804 1.9416 2.8839 3.8077 4.7135 5.6014 6.4720 7.3255 8.1622 8.9826 9.7868 10.5753 11.3484 12.1062 12.8493 13.5777 14.2919 14.9920 15.6785 16.3514 19.5235 22.3965 24.9986 27.3555 0.9709 1.9135 2.8286 3.7171 4.5797 5.4172 6.2303 7.0197 7.7861 8.5302 9.2526 9.9540 10.6350 11.2961 11.9379 12.5611 13.1661 13.7535 14.3238 14.8775 17.4131 19.6004 21.4872 23.1148 0.9615 1.8861 2.7751 3.6299 4.4518 5.2421 6.0021 6.7327 7.4353 8.1109 8.7605 9.3851 9.9856 10.5631 11.1184 11.6523 12.1657 12.6593 13.1339 13.5903 15.6221 17.2920 18.6646 19.7928 0.9524 1.8594 2.7232 3.5460 4.3295 5.0757 5.7864 6.4632 7.1078 7.7217 8.3064 8.8633 9.3936 9.8986 10.3797 10.8378 11.2741 11.6896 12.0853 12.4622 14.0939 15.3725 16.3742 17.1591 0.9434 1.8334 2.6730 3.4651 4.2124 4.9173 5.5824 6.2098 6.8017 7.3601 7.8869 8.3838 8.8527 9.2950 9.7122 10.1059 10.4773 10.8276 11.1581 11.4699 12.7834 13.7648 14.4982 15.0463 0.9346 0.9259 1.8080 1.7833 2.6243 2.5771 3.3872 3.3121 4.1002 3.9927 4.7665 4.6229 5.3893 5.2064 5.9713 5.7466 6.5152 6.2469 7.0236 6.7101 7.4987 7.1390 7.9427 7.5361 8.3577 7.9038 8.7455 8.2442 9.1079 8.5595 9.4466 8.8514 9.7632 9.1216 10.0591 9.3719 10.3356 9.6036 10.5940 9.8181 11.6536 10.6748 12.4090 11.2578 12.9477 11.6546 13.3317 11.9246 0.9174 1.7591 2.5313 3.2397 3.8897 4.4859 5.0330 5.5348 5.9952 6.4177 6.8052 7.1607 7.4869 7.7862 8.0607 8.3126 8.5436 8.7556 8.9501 9.1285 9.8226 10.2737 10.5668 10.7574 0.9091 1.7355 2.4869 3.1699 3.7908 4.3553 4.8684 5.3349 5.7590 6.1446 6.4951 6.8137 7.1034 7.3667 7.6061 7.8237 8.0216 8.2014 8.3649 8.5136 9.0770 9.4269 9.6442 9.7791 0.8929 1.6901 2.4018 3.0373 3.6048 4.1114 4.5638 4.9676 5.3282 5.6502 5.9377 6.1944 6.4235 6.6282 6.8109 6.9740 7.1196 7.2497 7.3658 7.4694 7.8431 8.0552 8.1755 8.2438 0.8696 1.6257 2.2832 2.8550 3.3522 3.7845 4.1604 4.4873 4.7716 5.0188 5.2337 5.4206 5.5831 5.7245 5.8474 5.9542 6.0472 6.1280 6.1982 6.2593 6.4641 6.5660 6.6166 6.6418 Used to calculate the present value of a series of equal payments made at the end of each period. For example: What is the present value of $2,000 per year for 10 years assuming an annual interest rate of 9% ? For (n= 10,i = 9%), the PV factor is 6.4177. $2,000 per year for 10 years is the equivalent of $12,835 today (2.000 6.4177). f=[(1 + i)" - 11/1 TABLE B.49 Future Value of an Annuity of 1 Rate Periods 1% 2% 3% 5% 6% 7% 8% 9% 10% 12% 15% 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1.0000 2.0100 3.0301 4.0604 5.1010 6.1520 7.2135 8.2857 9.3685 10.4622 11.5668 12.6825 13.8093 14.9474 16.0969 17.2579 18.4304 19.6147 20.8109 22.0190 28.2432 34.7849 41.6603 48.8864 1.0000 1.0000 2.0200 2.0300 3.0604 3.0909 4.1216 4.1836 5.2040 5.3091 6.3081 6.4684 7.4343 7.6625 8.5830 8.8923 9.7546 10.1591 10.9497 11.4639 12.1687 12.8078 13.4121 14.1920 14.6803 15.6178 15.9739 17.0863 17.2934 18.5989 18.6393 20.1569 20.0121 21.7616 21.4123 23.4144 22.8406 25.1169 24.2974 26.8704 32.0303 36.4593 40.5681 47.5754 49.9945 60.4621 60.4020 75.4013 1.0000 1.0000 1.0000 2.0400 2.0500 2.0600 3.1216 3.1525 3.1836 4.2465 4.3101 4.3746 5.4163 5.5256 5.6371 6.6330 6.8019 6.9753 7.8983 8.1420 8.3938 9.2142 9.5491 9.8975 10.5828 11.0266 11.4913 12.0061 12.5779 13.1808 13.4864 14.2068 14.9716 15.0258 15.9171 16.8699 16.6268 17.7130 18.8821 18.2919 19.5986 21.0151 20.0236 21.5786 23.2760 21.8245 23.6575 25.6725 23.6975 25.8404 28.2129 25.6454 28.1324 30.9057 27.6712 30.5390 33.7600 29.7781 33.0660 36.7856 41.6459 47.7271 54.8645 56.0849 66.4388 79.0582 73.6522 90.3203 111.4348 95.0255 120.7998 154.7620 1.0000 1.0000 2.0700 2.0800 3.2149 3.2464 4.4399 4.5061 5.7507 5.8666 7.1533 7.3359 8.6540 8.9228 10.2598 10.6366 11.9780 12.4876 13.8164 14.4866 15.7836 16.6455 17.8885 18.9771 20.1406 21.4953 22.5505 24.2149 25.1290 27.1521 27.8881 30.3243 30.8402 33.7502 33.9990 37.4502 37.3790 41.4463 40.9955 45.7620 63.2490 73.1059 94.4608 113.2832 138.2369 172.3168 199.6351 259.0565 1.0000 1.0000 2.0900 2.1000 3.2781 3.3100 4.5731 4.6410 5.9847 6.1051 7.5233 7.7156 9.2004 9.4872 11.0285 11.4359 13.0210 13.5795 15.1929 15.9374 17.5603 18.5312 20.1407 21.3843 22.9534 24.5227 26.0192 27.9750 29.3609 31.7725 33.0034 35.9497 36.9737 40.5447 41.3013 45.5992 46.0185 51.1591 51.1601 57.2750 84.7009 98.3471 136.3075 164.4940 215.7108 271.0244 337.8824 442.5926 1.0000 1.0000 2.1200 2.1500 3.3744 3.4725 4.7793 4.9934 6.3528 6.7424 8.1152 8.7537 10.0890 11.0668 12.2997 13.7268 14.7757 16.7858 17.5487 20.3037 20.6546 24.3493 24.1331 29.0017 28.0291 34.3519 32.3926 40.5047 37.2797 47.5804 42.7533 55.7175 48.8837 65.0751 55.7497 75.8364 63.4397 88.2118 72.0524 102.4436 133.3339 212.7930 241.3327 434.7451 431.6635 881.1702 767.0914 1.779.0903 Used to calculate the future value of a series of equal payments made at the end of each period. For example: What is the future value of $4,000 per year for 6 years assuming an annual interest rate of 8%? For (n=6, i = 8%), the FV factor is 7.3359. $4.000 per year for 6 years accumulates to $29,343.60 ($4,000 X 7.3359)
