According to the theory of the Capital Asset Pricing Model (CAPM), total risk can be broken into two components, systematic risk and idiosyncratic risk. Which of the following events would be considered a systematic, undiversifiable event according to the theory of the CAPM?
Your neighbour asks you for a loan of $100 and offers to pay you back $120 in one year.
You don't actually have any money right now, but you can borrow and lend from the bank at a rate of 10% pa. Rates are given as effective annual rates.
Assume that your neighbour will definitely pay you back. Ignore interest tax shields and transaction costs.
The Net Present Value (NPV) of lending to your neighbour is $9.09. Describe what you would do to actually receive a $9.09 cash flow right now with zero net cash flows in the future.
Which of the following investable assets are NOT suitable for valuation using PE multiples techniques?
Question 416 real estate, market efficiency, income and capital returns, DDM, CAPM
A residential real estate investor believes that house prices will grow at a rate of 5% pa and that rents will grow by 2% pa forever.
All rates are given as nominal effective annual returns. Assume that:
- His forecast is true.
- Real estate is and always will be fairly priced and the capital asset pricing model (CAPM) is true.
- Ignore all costs such as taxes, agent fees, maintenance and so on.
- All rental income cash flow is paid out to the owner, so there is no re-investment and therefore no additions or improvements made to the property.
- The non-monetary benefits of owning real estate and renting remain constant.
Which one of the following statements is NOT correct? Over time:
Question 442 economic depreciation, no explanation
A fairly valued share's current price is $4 and it has a total required return of 30%. Dividends are paid annually and next year's dividend is expected to be $1. After that, dividends are expected to grow by 5% pa. All rates are effective annual returns.
What is the expected dividend cash flow, economic depreciation, and economic income and economic value added (EVA) that will be earned over the second year (from t=1 to t=2) and paid at the end of that year (t=2)?
Read the following financial statements and calculate the firm's free cash flow over the 2014 financial year.
| UBar Corp | ||
| Income Statement for | ||
| year ending 30th June 2014 | ||
| $m | ||
| Sales | 293 | |
| COGS | 200 | |
| Rent expense | 15 | |
| Gas expense | 8 | |
| Depreciation | 10 | |
| EBIT | 60 | |
| Interest expense | 0 | |
| Taxable income | 60 | |
| Taxes | 18 | |
| Net income | 42 | |
| UBar Corp | ||
| Balance Sheet | ||
| as at 30th June | 2014 | 2013 |
| $m | $m | |
| Assets | ||
| Cash | 30 | 29 |
| Accounts receivable | 5 | 7 |
| Pre-paid rent expense | 1 | 0 |
| Inventory | 50 | 46 |
| PPE | 290 | 300 |
| Total assets | 376 | 382 |
| Liabilities | ||
| Trade payables | 20 | 18 |
| Accrued gas expense | 3 | 2 |
| Non-current liabilities | 0 | 0 |
| Contributed equity | 212 | 212 |
| Retained profits | 136 | 150 |
| Asset revaluation reserve | 5 | 0 |
| Total L and OE | 376 | 382 |
Note: all figures are given in millions of dollars ($m).
The firm's free cash flow over the 2014 financial year was:
Which of the following equations is NOT equal to the total return of an asset?
Let ##p_0## be the current price, ##p_1## the expected price in one year and ##c_1## the expected income in one year.
Question 524 risk, expected and historical returns, bankruptcy or insolvency, capital structure, corporate financial decision theory, limited liability
Which of the following statements is NOT correct?
Which of the below statements about utility is NOT generally accepted by economists? Most people are thought to:
Question 794 option, Black-Scholes-Merton option pricing, option delta, no explanation
Which of the following quantities from the Black-Scholes-Merton option pricing formula gives the Delta of a European call option?
Where:
###d_1=\dfrac{\ln[S_0/K]+(r+\sigma^2/2).T)}{\sigma.\sqrt{T}}### ###d_2=d_1-\sigma.\sqrt{T}=\dfrac{\ln[S_0/K]+(r-\sigma^2/2).T)}{\sigma.\sqrt{T}}###