Answer:
a) $101354
Explanation:
To calculate the future balance of the interest-earning account use following formula
FV = PV x ( 1 + r )^n
Where
FV = Future value = Balance of Interest-earning account after 3 years = ?
PV = present value = Amounr deposited in the account = $90,000
r = Periodic interest rate = 4% x 6/12 = 2%
n = Numbers of periods = Numbers of years x Compounding periods per year = 3 years x 2 periods per year = 6 periods
Placing values in the formula
FV = $90,000 x ( 1 + 2% )^6
FV = $101,354
Answer: increased by $20 billion
Explanation:
Real GDP is year of interest is:
= (Nominal GDP in year of interest/ GDP Price index in year of interest) * 100
= 480/120 * 100
= $400 billion
Nominal GDP is equal to Real GDP in base year so increase in real GDP is:
= 400 - 380
= $20 billion
Public goods are available everywhere and are <span>both non-excludable and non-rivalrous</span>
They represent a market failure because <span>by their very nature they are nonexcludable and nonrival which makes it difficult for the private sector to supply them profitably. Answer: B
</span>Public goods are nonrival in consumption and their benefits are nonexcludable
Answer:
12:34
Explanation:
It will be 12:34 if you leave at 11:26
Answer:
$1,534.372
Explanation:
The computation of the expected level of the index in one year is shown below:
= Current index level × 1 + expected rate of return on the market - expected future value of the dividend paid over the next year
= $1,433 × (1 + 8.4%) - $19
= $1,553.372 - $19
= $1,534.372
We simply applied the above formula so that the expected level of the index in one year could come
