MontyPix currently uses a six-year-old molding machine to manufacture silver picture frames. The company paid $104,000for the machine, which was state of the art at the time of purchase. Although the machine will likely last another ten years, it will need a $11,000overhaul in four years. More important, it does not provide enough capacity to meet customer demand. The company currently produces and sells15,000frames per year, generating a total contribution margin of $99,000.

Martson Molders currently sells a molding machine that will allowMontyPix to increase production and sales to20,000frames per year. The machine, which has a ten-year life, sells for $139,000and would cost $13,000per year to operate.MontyPix's current machine costs only $8,000per year to operate. IfMontyPix purchases the new machine, the old machine could be sold at its book value of $5,000. The new machine is expected to have a salvage value of $20,000at the end of its ten-year life.MontyPix uses straight-line depreciation.

Calculate the new machine's net present value assuming a16% discount rate?

calculate the new machine's internal rate of return?

Calculate the new machine's payback period.

APPENDIX 9.1 Present value of $1 received in n periods. Periods 4% 5% 6% 7% 8% 9% 10% 11% 12% 13% 14% 16% 18% 20% 0.9615 0.9524 0.9434 0.9346 0.9259 0.9174 0.9091 0.9009 0.8929 0.8850 0.8772 0.8621 0.8475 0.8333 0.9246 0.9070 0.8900 0.8734 0.8573 0.8417 0.8264 0.8116 0.7972 0.7831 0.7695 0.7432 0.7182 0.6944 0.8890 0.8638 0.8396 0.8163 0.7938 0.7722 0.7513 0.7312 0.7118 0.6931 0.6750 0.6407 0.6086 0.5787 & w 0.8548 0.8227 0.7921 0.7629 0.7350 0.7084 0.6830 0.6587 0.6355 0.6133 0.5921 0.5523 0.5158 0.4823 5 0.8219 0.7835 0.7473 0.7130 0.6806 0.6499 0.6209 0.5935 0.5674 0.5428 0.5194 0.4761 0.4371 0.4019 0.7903 0.7462 0.7050 0.6663 0.6302 0.5963 0.5645 0.5346 0.5066 0.4803 0.4556 0.4104 0.3704 0.3349 0.7599 0.7107 0.6651 0.6227 0.5835 0.5470 0.5132 0.4817 0.4523 0.4251 0.3996 0.3538 0.3139 0.2791 0.7307 0.6768 0.6274 0.5820 0.5403 0.5019 0.4665 0.4339 0.4039 0.3762 0.3506 0.3050 0.2660 0.2326 DO 9 0.7026 0.6446 0.5919 0.5439 0.5002 0.4604 0.4241 0.3909 0.3606 0.3329 0.3075 0.2630 0.2255 0.1938 10 0.6756 0.6139 0.5584 0.5083 0.4632 0.4224 0.3855 0.3522 0.3220 0.2946 0.2697 0.2267 0.1911 0.1615 11 0.6496 0.5847 0.5268 0.4751 0.4289 0.3875 0.3505 0.3173 0.2875 0.2607 0.2366 0.1954 0.1619 0.1346 12 0.6246 0.5568 0.4970 0.4440 0.3971 0.3555 0.3186 0.2858 0.2567 0.2307 0.2076 0.1685 0.1372 0.1122 13 0.6006 0.5303 0.4688 0.4150 0.3677 0.3262 0.2897 0.2575 0.2292 0.2042 0.1821 0.1452 0.1163 0.0935 14 0.5775 0.5051 0.4423 0.3878 0.3405 0.2992 0.2633 0.2320 0.2046 0.1807 0.1597 0.1252 0.0985 0.0779 15 0.5553 0.4810 0.4173 0.3624 0.3152 0.2745 0.2394 0.2090 0.1827 0.1599 0.1401 0.1079 0.0835 0.0649 16 0.5339 0.4581 0.3936 0.3387 0.2919 0.2519 0.2176 0.1883 0.1631 0.1415 0.1229 0.0930 0.0708 0.0541 17 0.5134 0.4363 0.3714 0.3166 0.2703 0.2311 0.1978 0.1696 0.1456 0.1252 0.1078 0.0802 0.0600 0.0451 18 0.4936 0.4155 0.3503 0.2959 0.2502 0.2120 0.1799 0.1528 0.1300 0.1108 0.0946 0.0691 0.0508 0.0376 19 0.4746 0.3957 0.3305 0.2765 0.2317 0.1945 0.1635 0.1377 0.1161 0.0981 0.0829 0.0596 0.0431 0.0313 20 0.4564 0.3769 0.3118 0.2584 0.2145 0.1784 0.1486 0.1240 0.1037 0.0868 0.0728 0.0514 0.0365 0.0261 $1 (1 + i)"