Average Rate of Return Method, Net Present Value Method, and Analysis The capital Investment committee of Ellis Transport and Storage Inc. is considering two investment projects. The estimated Income from operations and net cash flows from each investment are as follows: Warehouse Year Income from Operations Net Cash Flow 1 2 $52,000 52,000 52,000 52,000 52,000 3 $169,000 169,000 169,000 169,000 169,000 $845,000 Tracking Technology Income from Net Cash Operations Flow $109,000 $270,000 83,000 228,000 42,000 161,000 18,000 110,000 8,000 76,000 $260,000 $845,000 4 5 Total $260,000 Each project requires an investment of $520,000. Straight-line depreciation will be used, and no residual value is expected. The committee has selected a rate of 12% for purposes of the net present value analysis. Present Value of $1 at Compound Interest Year 6% 10% 12% 15% 20% 1 0.943 0.909 0.893 0.870 0.833 2 0.890 0.826 0.797 0.756 0.694 3 0.840 0.751 0.712 0.658 0.579 4 0.792 0.683 0.636 0.572 0.482 5 0.747 0.621 0.567 0.497 0.402 6 0.705 0.564 0.507 0.432 0.335 7 0.665 0.513 0.452 0.376 0.279 8 0.627 0.467 0.404 0.327 0.233 9 0.592 0.424 0.361 0.284 0.194 10 0.558 0.386 0.322 0.247 0.162 Required: la. Compute the average rate of return for each investment. If required, round your answer to one decimal place. Average Rate of Return 41.9 X % Warehouse Tracking Technology % 1b. Compute the net present value for each investment. Use the present value of $1 table above. If required, use the minus sign to indicate a negative net present value. Warehouse Tracking Technology Present value of net cash flow total Less amount to be invested $ Net present value in time. Thus, if only one of the two projects can be 2. The warehouse has a smaller X net present value as tracking technology cash flows occur later X accepted, the tracking technology X would be the more attractive