9.1 Timing of Cash Flows - Principles of Finance

Learning Outcomes

By the end of this section, you will be able to:

Describe how multiple payments of unequal value are present in everyday situations.
Calculate the future value of a series of multiple payments of unequal value.
Calculate the present value of a series of multiple payments of unequal value.

Multiple Payments or Receipts of Unequal Value: The Mixed Stream

At this point, you are familiar with the time value of money of single amounts and annuities and how they must be managed and controlled for business as well as personal purposes. If a stream of payments occurs in which the amount of the payments changes at any point, the techniques for solving for annuities must be modified. Shortcuts that we have seen in earlier chapters cannot be taken. Fortunately, with tools such as financial or online calculators and Microsoft Excel, the method can be quite simple.

The ability to analyze and understand cash flow is essential. From a personal point of view, assume that you have an opportunity to invest $2,000 every year, beginning next year, to save for a down payment on the purchase of your first home seven years from now. In the third year, you also inherit $10,000 and put it all toward this goal. In the fifth year, you receive a large bonus of $3,000 and also dedicate this to your ongoing investment.

The stream of regular payments has been interrupted—which is, of course, good news for you. However, it does add a new complexity to the math involved in finding values related to time, whether compounding into the future or discounting to the present value. Analysts refer to such a series of payments as a mixed stream. If you make the first payment on the first day of next year and continue to do so on the first day of each following year, and if your investment will always be earning 7% interest, how much cash will you have accumulated—principal plus earned interest—at the end of the seven years?

This is a future value question, but because the stream of payments is mixed, we cannot use annuity formulas or approaches and the shortcuts they provide. As noted in previous chapters, when solving a problem involving the time value of money, a timeline and/or table is helpful. The cash flows described above are shown in Table 9.1. Remember that all money is assumed to be deposited in your investment at the beginning of each year. The cumulative cash flows do not yet consider interest.

Year	0	1	2	3	4	5	6	7
Cash Invested	$0.00	$2,000	$2,000	$2,000	$12,000	$2,000	$5,000	$2,000
Cumulative Cash Flows		$2,000	$4,000	$6,000	$18,000	$20,000	$25,000	$27,000

Table 9.1

By the end of seven years, you have invested $27,000 of your own money before we consider interest:

Seven years times $2,000 each year, or $14,000
The extra $10,000 you received in year 3 (which is invested at the start of year 4)
The extra $3,000 you received in year 5 (which is invested at the start of year 6)

These funds were invested at different times, and time and interest rate will work for you on all accumulated balances as you proceed. Therefore, focus on the line in your table with the cumulative cash flows. How much cash will you have accumulated at the end of this investment program if you’re earning 7% compounded annually? You could use the future value of a single amount equation, but not for an annuity. Because the amount invested changes, you must calculate the future value of each amount invested and add them together for your result.

Recall that the formula for finding the future value of a single amount is $FV = PV \times (1 + i)^{n}$ , where FV is the future value we are trying to determine, PV is the value invested at the start of each period, i is the interest rate, and n is the number of periods remaining for compounding to take effect.

Let us repeat the table with your cash flows above. Table 9.2 includes a line to show for how many periods (years, in this case) each investment will compound at 7%.

Year	0	1	2	3	4	5	6	7
Cash Invested	$0.00	$2,000	$2,000	$2,000	$12,000	$2,000	$5,000	$2,000
Cumulative Cash Flows		$2,000	$4,000	$6,000	$18,000	$20,000	$25,000	$27,000
Years to Compound		7	6	5	4	3	2	1

Table 9.2

The $2,000 that you deposit at the start of year 1 will earn 7% interest for the entire seven years. When you make your second investment at the start of year 2, you will now have spent $4,000. However, the interest from your first $2,000 investment will have earned you $$ 2,000 \times 0.07 = $ 140$ , so you will begin year 2 with $4,140 rather than $4,000.

Before we complicate the problem with a schedule that ties everything together, let’s focus on years 1 and 2 with the original formula for the future value of a single amount. What will your year 1 investment be worth at the end of seven years?

${FV}_{1} = $ 2,000 \times {(1 + 0.07)}^{7} \approx $ 3,211.56$

9.1

You need to address the year 2 investment separately at this point because you’ve calculated the year 1 investment and its compounding on its own. Now you need to know what your year 2 investment will be worth in the future, but it will only compound for six years. What will it be worth?

${FV}_{2} = $ 2,000 \times {(1 + 0.07)}^{6} \approx $ 3,001.46$

9.2

You can perform the same operation on each of the remaining five invested amounts, remembering that you invest $12,000 at the start of year 4 and $5,000 at the start of year 6, as per the table. Here are the five remaining calculations:

$\begin{array}{rcl} {FV}_{3} & = & $ 2,000 \times {(1 + 0.07)}^{5} \approx $ 2,805.10 \\ {FV}_{4} & = & $ 12,000 \times {(1 + 0.07)}^{4} \approx $ 15,729.55 \\ {FV}_{5} & = & $ 2,000 \times {(1 + 0.07)}^{3} \approx $ 2,450.09 \\ {FV}_{6} & = & $ 5,000 \times {(1 + 0.07)}^{2} \approx $ 5,724.50 \\ {FV}_{7} & = & $ 2,000 \times {(1 + 0.07)}^{1} \approx $ 2,140.00 \end{array}$

9.3

Notice how the exponent representing n decreases each year to reflect the decreasing number of years that each invested amount will compound until the end of your seven-year stream. For clarity, let us insert each of these amounts in a row of Table 9.3:

Year	0	1	2	3	4	5	6	7
Cash Invested	$0.00	$2,000	$2,000	$2,000	$12,000	$2,000	$5,000	$2,000
Cumulative Cash Flows		$2,000	$4,000	$6,000	$18,000	$20,000	$25,000	$27,000
Years to Compound		7	6	5	4	3	2	1
Compounded Value at End of Year 7		$3,211.56	$3,001.46	$2,805.10	$15,729.55	$2,450.09	$5,724.50	$2,140.00

Table 9.3

The solution to the original question—the value of your seven different investments at the end of the seven-year period—is the total of each individual investment compounded over the remaining years. Adding the compounded values in the bottom row provides the answer: $35,062.26. This includes the $27,000 that you invested plus $8,062.26 in interest earned by compounding.

It’s important to note that throughout these sections on the time value of money and compounded or discounted values of mixed streams and their analysis, we are placing the valuation at the end or beginning of a period for simplicity in the examples. In reality, businesses might consider valuations happening within the period to allow for a degree of regularity in the revenue streams provided by the asset being considered. However, because this is a technique of forecasting, which is inherently uncertain, we will continue with analysis by period.

Think It Through

Future Value of a Mixed Stream

Assume that you can invest five annual payments of $10,000, beginning immediately, but you believe you will be able to invest additional amounts of $5,000 at the beginning of years 4 and 5. This investment is expected to earn 4% each year. What is the anticipated future value of this investment after the full five years?

Solution:

Year	0	1	2	3	4	5
Cash Invested	$0.00	$10,000	$10,000	$10,000	$15,000	$15,000
Cumulative Cash Flows		$10,000	$20,000	$30,000	$45,000	$60,000
Years to Compound		5	4	3	2	1
Compounded Value at End of Year 5		$12,166.53	$11,698.59	$11,248.64	$16,224.00	$15,600.00

Table 9.4

The Present Value of a Mixed Stream

Now that we’ve seen the calculation of a future value, consider a present value. We will begin with a personal example. You win a cash windfall through your state’s lottery. You would like to take a portion of the funds and place them in a fixed investment so that you can draw $17,000 per year starting one year from now and continue to do so for the next two years. At the end of year 4, you want to withdraw $17,500, and at the end of year 5, you will withdraw the last $18,000 to close the account. When you take your last payment of $18,000, your fund will be totally depleted. You will always be earning 6% annually. How much of your cash windfall should you set aside today to accomplish this?

Let us break down the problem, remembering that we are thinking in reverse from the earlier problems that involved future values. In this case, we’re bringing future values back in time to find their present values. You will recall that this process is called discounting rather than compounding.

Regardless of how we solve this, the question remains the same: How much money must we invest today (present value) to achieve this? And remember that we will always be earning 6% compounded annually on any invested balances.

We are calculating present values as we did in previous chapters, given a known future value “target,” in order to determine how much money you need today to achieve that goal. Let us break this down by first reviewing the relevant equations from previous chapters.

Present value of an ordinary annuity:

$\begin{array}{rcl} PVa & = & PYMT \times \frac{[1 - \frac{1}{{(1 + i)}^{n}}]}{i} \end{array}$

Year	0	1	2	3	4	5
Expected Amount to Be Withdrawn at End of Year	$0.00	$17,000	$17,000	$17,000	$17,500	$18,000

Year	0	1	2	3	4	5
Withdrawn at End of Year		$17,000.00	$17,000.00	$17,000.00	$17,500.00	$18,000.00
Interest on Balance		$4,365.21	$3,607.12	$2,803.55	$1,951.76	$1,018.87
Remaining Balance	$72,753.49	$60,118.70	$46,725.82	$32,529.37	$16,981.13	$0.00

Think It Through

Present Value of a Mixed Stream

Assume that you decide to invest $450,000. All cash flows are discounted at 4%. You are told by your financial advisor to expect cash inflows from your investment of $100,000 in year 1, $125,000 in year 2, $175,000 in year 3, $90,000 in year 4, and $50,000 in year 5. Would you agree to this plan based only on the numbers? Each amount will be withdrawn at the end of every year, and interest will be compounded annually.

Solution:

Year	0	1	2	3	4	5
Expected Amount to Be Withdrawn at End of Year	$0.00	$100,000	$125,000	$175,000	$90,000	$50,000

Table 9.7

Applying the formula for the present value of a single amount, we discount each amount and then add the discounted amounts. We will simplify this approach with Excel shortly, but we must understand the reasoning behind discounting uneven cash flow streams with a direct solution.

$\begin{array}{rcl} {PV}_{1} & = & $ 100,000 \times \frac{1}{{(1 + 0.04)}^{1}} \approx $ 96,153.85 \\ {PV}_{2} & = & $ 125,000 \times \frac{1}{{(1 + 0.04)}^{2}} \approx $ 115,569.53 \\ {PV}_{3} & = & $ 175,000 \times \frac{1}{{(1 + 0.04)}^{3}} \approx $ 155,574.36 \\ {PV}_{4} & = & $ 90,000 \times \frac{1}{{(1 + 0.04)}^{4}} \approx $ 76,932.38 \\ {PV}_{5} & = & $ 50,000 \times \frac{1}{{(1 + 0.04)}^{5}} \approx $ 41,096.36 \end{array}$

9.23

By combining the five discounted amounts above, we get a total present value of $485,326.48. This amount represents the value today of the five expected cash inflows for as long as our remaining balance is earning 4%.

Concepts In Practice

Thoughts on Cash Flow from Irina Simmons

In 2013, the author interviewed Irina Simmons, senior vice president, chief risk officer, and former treasurer of EMC Corporation. The importance and understanding of cash flow analysis is fundamental to this text, and several of her insights are highly relevant to our content and procedures here.

AA: Ms. Simmons, why is cash management so important to an existing or start-up firm, and how does it compare to the more basic and traditional focus on profitability?

Simmons: While profitability is very useful for analysis by investors to measure performance, an organization’s cash flow provides superior measurement. Cash flow is easy to understand, provides a transparent way of assessing a firm’s health, and is not subject to any qualifications. By focusing upon cash flow, any firm—whether it is mature or a start-up organization—can have a clear picture of its health and success.

AA: In your bio, you mention liquidity management. Can you elaborate on this and why liquidity management is so important to a firm?

Simmons: Just as effective forecasting can provide superior cash management, the same holds true for liquidity management. For example, if you are able to confidently predict levels and timing of cash, then based on that forecast, you can make effective short- and long-term borrowing decisions. A disciplined approach to projecting one’s cash position means that instead of investing cash in the money market to maximize day-to-day liquidity, you can look into longer-term investments that can provide a significantly higher return. This is essential to the effective matching of cash inflows and outflows for the firm.

AA: In summary, do you have any words of advice to students who might have an eye to entrepreneurial ventures?

Simmons: “Cash is king,” don’t forget that. Understand how cash moves through a business. It is also very important to implement and retain a cash management discipline. Never put that off until later. Many times, start-ups will say, “Well, I have all this venture money, and we can start making things happen and worry about being good cash managers later.” But what I’ve seen is that the longer companies wait, the harder it is to break bad habits. Making cash management a priority now will serve entrepreneurs in perfect stead as their business starts to gain traction.

We closed this excellent interview with agreement that we were “kindred spirits” regarding the importance of cash flow analysis, including capital decisions such as those mentioned in this chapter. We confirmed with each other the core belief that “cash flow is the axis upon which the world of business spins.”

(source: Business Finance: A Clear View, 3rd edition, by Alan S. Adams. LAD Publishing, 2015.)

Link to Learning

Analyst Training Materials

These materials, developed to help professionals prepare for an analyst certification exam, describe the sources of return from investing in a bond.

9.1 Timing of Cash Flows - Principles of Finance | OpenStax (2024)

FAQs

What is the timing of cash flows? ›

Cash timing simply put is how your revenue and expenses impact the cash you have access to at any given time. But timing your cash flow is, in a word, complicated.

Read On ›

What are the principles of finance cash flow? ›

So, what are the 5 principles of cash flow management? Accelerate cash inflows through active accounts receivable management, timely invoicing and sending out payment reminders, offering discounts for early payment, and enforcing strict credit policies.

Discover More Details ›

What is the timeline of cash flows? ›

Timelines for Cash Flows

A timeline depicts the timing and amount of the cash flows. Cash flows in a timeline are often labeled positive or negative. By convention, positive cash flows correspond to cash inflows; negative cash flows correspond to cash outflows.

Why is timing cash flow important? ›

Timing is very important to cash flow. The business must have sufficient cash when payments come due or else they risk defaulting. Even profitable businesses can have cash flow issues when faced with badly timed expenses. A small business with cash flow issues will struggle to make regular payments to its owners.

See Details ›

What is the time period of the cash flow statement? ›

The cash flow statement reports the cash generated and spent during a specific period of time (e.g., a month, quarter, or year). The statement of cash flows acts as a bridge between the income statement and balance sheet by showing how cash moved in and out of the business.

Find Out More ›

What is the cash flow cycle? ›

The cash flow cycle performance metric helps companies identify how long it takes to convert their inventories into cash. It measures this time in days. Some companies successfully tweak this to fit service industries, but finance professionals created the metric specifically for companies with physical inventories.

Tell Me More ›

What is the cash time cycle? ›

The cash conversion cycle measures the amount of time it takes a business to convert resources to cash. Cash conversion cycles depend on industry type, management, and many other factors. However, the fewer days it takes to convert resources to cash, the better it is for the business.

Show Me More ›

What is the rule of cash flow? ›

Four simple rules to remember as you create your cash flow statement: Transactions that show an increase in assets result in a decrease in cash flow. Transactions that show a decrease in assets result in an increase in cash flow. Transactions that show an increase in liabilities result in an increase in cash flow.

Explore More ›

Why is timing important in finance? ›

Market timing is used to maximize profits and offset the associated risks with high gains. It is the classic risk-return tradeoff that exists with respect to investment – the higher the risk, the higher the return. It enables traders to curtail the effects of market volatility.

What is the schedule of cash flows? ›

The Cash Flow Schedule is developed to estimate and schedule cash outlays of the project by time periods. It is particularly important on projects with multi-sources of construction financing to determine if enough funds will be available at the right times.

Show Me More ›

Why is cash flow so important? ›

Why is cash flow important? Cash flow is important because it enables you to meet your existing financial obligations as well as plan for the future. Yet, cash flow is a common challenge among small businesses.

Read The Full Story ›

What is the time value of cash flows? ›

The time value of money is the concept that money you have in hand today is worth more than money you'd get in the future. There are four main types of cash flows related to time value of money:Future value of a lump sum, future value of an annuity, present value of a lump sum, and present value of an annuity.