Answer:
The price of the bond is 1,072.19
Explanation:
The price at which the bond trades for can be computed using the pv formula in excel which tries to discount to present value all the cash inflows receivable from the bond into today's present worth.
=-pv(rate,nper,pmt,fv)
rate is the yield to maturity of 6.50% divided by 2 since the bond pays interest semi-annually i.e 3.25%
nper is the number of coupon payments the bond would pay which is 7 years multiplied by 2 i.e 14
pmt is the semi-annual interest of the bond which is $1000*7.8%/2=$39
the fv is the face value of the bond of $1000
=-pv(6.5%/2,14,39,1000)=$1,072.19
6.8 will be the debt-to-EBITDA ratio.
EBITDA* 8.5=Transaction Value
(Transaction value * 0.8) / EBITDA = 6.8
EBITDA, or earnings before interest, taxes, depreciation, and amortization, is a measure of a company's overall financial performance and is used as an alternative to net income in certain circumstances. However, EBITDA can be misleading because it does not reflect the cost of capital investments such as property, plant, and equipment.
This metric also excludes debt-related expenses by adding interest and tax costs to revenues. However, it is a more accurate measure of business performance as it is able to report profit before the effect of accounting and financial deductions.
Learn more about the debt-to-income ratio here: brainly.com/question/24814852
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Answer:
34,000 units
Explanation:
Given that,
Budgeted sales = 32,000 units
Ending inventory required = 6,000 units
Beginning inventory = 4,000 units
Hence,
Number of units = Budgeted sales + Ending inventory - Beginning inventory
Number of units = 32,000 units + 6,000 units - 4,000 units
Number of units = 34,000 units
Therefore, 34,000 units must be produced to also meet the 6,000 units required in ending inventory.
