Examples of payback period in the following topics:
-
- To calculate a more exact payback period: Payback Period = Amount to be initially invested / Estimated Annual Net Cash Inflow.
- Payback period is usually expressed in years.
- Payback period method does not take into account the time value of money.
- The modified payback period algorithm may be applied then.
- To be more detailed, the payback period would be: 4 + 2/7 = 4.29 year.
-
- All else being equal, shorter payback periods are preferable to longer payback periods.
- The payback period is an effective measure of investment risk.
- The project with a shortest payback period has less risk than with the project with longer payback period.
- Payback period method is suitable for projects of small investments.
- The business is more likely to use payback period to choose a project.
-
- Payback period analysis ignores the time value of money and the value of cash flows in future periods.
- An implicit assumption in the use of payback period is that returns to the investment continue after the payback period.
- Payback period does not specify any required comparison to other investments or even to not making an investment.
- Payback also ignores the cash flows beyond the payback period, thereby ignoring the profitability of the project.
- The modified payback period algorithm may be applied then.
-
- Discounted payback period is the amount of time to cover the cost, by adding positive discounted cash flow coming from the profits of the project.
- Payback period in capital budgeting refers to the period of time required for the return on an investment to "repay" the sum of the original investment.
- Compared to payback period, the discounted payback period takes the time value of money into consideration.
- An implicit assumption in the use of payback period is that returns to the investment continue after the payback period.
- Payback period does not specify any required comparison to other investments or even to not making an investment.
-
- A $1000 investment which returned $500 per year would have a two year payback period.
- In capital budgeting, the payback period refers to the period of time required for the return on an investment to "repay" the sum of the original investment.
- As a stand-alone tool to compare an investment, the payback method has no explicit criteria for decision-making except, perhaps, that the payback period should be less than infinity.
- An implicit assumption in the use of the payback method is that returns to the investment continue after the payback period.
- The payback period is usually expressed in years.
-
- Payback period: For example, a $1000 investment which returned $500 per year would have a two year payback period.
- Payback period in capital budgeting refers to the period of time required for the return on an investment to "repay" the sum of the original investment.
- Payback period intuitively measures how long something takes to "pay for itself. " All else being equal, shorter payback periods are preferable to longer payback periods.
- The payback period is considered a method of analysis with serious limitations and qualifications for its use, because it does not account for the time value of money, risk, financing, or other important considerations, such as the opportunity cost.
- Simplified and hybrid methods are used as well, such as payback period and discounted payback period.
-
- Financial forecasting calculations, such as payback periods, calculate the period of time required for the return on an investment to repay the sum of the original investment.
- For example, a $1,000 investment that returned $500 per year would have a two-year payback period.
- Payback period intuitively measures how long something takes to "pay for itself."
- All things being equal, shorter payback periods are preferable to longer payback periods.
- Payback period is widely used because it is a simple and clear measure.
-
- The long-term financial rewards of renewable energy cannot be understood without comprehending ‘payback' or return-on-investment (ROI), both of which measure profitability in relation to capital expenses.
- To determine payback or ROI… Imagine that a factory pays €10,000 annually to purchase electricity from a coal-burning power plant – and that the cost of equipment (wind turbines or solar voltaics) that can transform sunlight or wind into the same amount of electricity is €50,000.
- The payback period of the €50,000 investment, which is based on the annual market cost of electricity if the switch to renewable energy had not been made (€10,000) is therefore 5 years (€10,000 x 5 years = €50,000).
- Note that accountants typically like to see financial investment estimates in terms of ROI, while almost everyone else prefers to see the ‘payback' period of an investment in terms of months or years.
- Again, the ultimate payoff isthat at the end of the payback period, the business receives free electricity (minus maintenance and disposal costs) which is why renewable energy can be a smart investment.
-
- Fuel cells large enough to power a home can cost thousands of dollars (resulting in a payback period of up to 15 years), which means that the electricity they produce costs around $1,500–$6,000 per kW (before payback).
-
- Before payback occurs, solar power is often considered one of the more expensive sustainable energy options available.
- In 2007, the price was $2.70 per watt (before payback) and in 2012, in Germany, the cost (minus installation fees) was $1.34 per watt (before payback).
- Also, once again, after payback occurs, electricity from solar power is virtually free.
- Indeed, in situations where solar power costs are greater than conventionally produced electricity, solar voltaics can pay for themselves in a relatively short period of time.