Unit 9: Capital Budgeting



                 The above gives very useful information about projects that appear equally desirable on  Notes
                 the basis of most likely estimates of their cash flows. Project X is less risky than Project Y,
                 since the quantum of variation is relatively less in Project Y. The actual selection of the
                 project (assuming projects are mutually exclusive) will depend on decision makers’ attitude
                 towards risk. If he is conservative, he will choose Project X since there is no possibility of
                 suffering losses. On the other hand, if he is a risk-taker, he will choose Project Y, as there
                 is a possibility of higher returns as compared to Project X.
                 Advantages: Since sensitivity analysis provides more than one estimate of future return
                 of a project, it is superior to the single – figure forecast.

                 Limitation: The method does not disclose the chances of the occurrence of these variations.
                 To remedy this  shortcoming of sensitivity analysis,  so as  to provide  a more  accurate
                 forecast, probability of the variation should be provided.

            2.   Probability assignment to expected cash flow: This method provides a more precise measure
                 of the variability of cash flows since it indicates the percentage chance of occurrence of
                 each possible cash flow. For example, if some expected cash flow has (0.6) probability of
                 occurrence, it means that the given cash flow is likely to be obtained in 6 out of 10 times.
                 The quantification of variability of returns involves two  steps. First, depending on  the
                 chances of occurrence of a particular cash flow estimate, probabilities are assigned. The
                 second step is to estimate the expected return on the project. The returns are estimated in
                 terms of expected monetary values based on a weightage average return, weights are the
                 probabilities assigned.


                     Example: From the following information regarding expected cash flows and then
                     probability for Project X, what is the expected return of the project assuming 10% as
                     discount rate – [Discount factor 10% year 1 – 0.909; year 2 – 0.826; year 3 – 0.751]

                         Year1                 Year 2                 Year 3
                   Cash flow    Probability   Cash flow   Probability   Cash flow   Probability
                     ( )                   ( )
                    4,000       0.25      4,000      0.50       4,000       0.25
                    7,000       0.50      7,000      0.25       7,000       0.25
                    9,000       0.25      9,000      0.25       9,000       0.50

                 Solution: Cash flow
                  Year 1 = 4,000 × 0.25 + 7,000 × 0.50 + 9,000 × 0.25 =   6750
                  Year 2 = 4,000 × 0.50 + 7,000 × 0.25 + 9,000 × 0.25 =   6000

                  Year 3 = 4,000 × 0.25 + 7,000 × 0.25 + 9,000 × 0.50 =   7250
                 Calculation of Present Values:
                  Year 1 =   6750 × 0.909 =   6136, Year 2 = 6,000 × 0.826 =   4956
                  Year 3 =   7250 × 0.751 =   5445
                          Total   16,537

                 Advantages of the method: The assignment of probabilities and the calculation of expected
                 values, without doubt, taken into account the risk in terms of variability in explicit terms
                 of investment decisions.





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