Net present value/Tutorials: Difference between revisions
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The '''net present value''' of a project generating cash flows during n periods is given by: | |||
::::<math>\mbox{V} = \sum_{t=1}^{n} \frac{C_t}{(1+r)^{t}} - {I}</math> | |||
Where | |||
*<math>t</math> is the time of the cash flow <br> | |||
*<math>r</math> is the [[discount rate]] <br> | |||
*<math>C_t</math> is the net cash flow (the amount of cash) at time t. <br> | |||
*<math>I</math> is the initial investment outlay. | |||
The '''net present expected value''', E of a project having a probability P of a single outcome whose net present value is V is given by: | |||
::::E = PV | |||
Where there are multiple possible outcomes y = 1 ...n with probabilities ''P''<sub>y</sub> and present values ''V''<sub>y</sub>, | |||
then the net present expected value is given by: | |||
::::<math>\mbox{E} = \sum_{y=1}^{n} P_y V_y</math> | |||
Revision as of 11:31, 25 February 2008
The net present value of a project generating cash flows during n periods is given by:
Where
- is the time of the cash flow
- is the discount rate
- is the net cash flow (the amount of cash) at time t.
- is the initial investment outlay.
The net present expected value, E of a project having a probability P of a single outcome whose net present value is V is given by:
- E = PV
Where there are multiple possible outcomes y = 1 ...n with probabilities Py and present values Vy,
then the net present expected value is given by:
