Answer:a bony projection with a shape likened to a hammer head, especially each of those on either side of the ankle.
Explanation:a bony projection with a shape likened to a hammer head, especially each of those on either side of the ankle.
Answer & Explanation:
Straight Line table
<em><u>The straight-line Method</u></em> is simply and easy to understand, It distribute the depreciation equally between years. So that implies that the formula should be:
195,000 - 9,000 = 181,000
181,000 / 4 = 45,250
Double Declining table
<em><u>The Double declining </u></em>You double the straight line rate
Current Book Value x rate = depreciation expense
190,000 x 1/2 = 95,000
Answer:
D. $30,000
Explanation:
The bond is issued on discount when the issuance price is less than the face value of the bond. The discount is expensed over the bond period until maturity. It is added to the interest expense value to expense it.
This discount will be amortized using Effective Interest method as below
Interest Payment = $5,000,000 x 8% x 6/12 = $200,000
Interest Expense = $4,600,000 x 10% x 6/12 = $230,000
Discount amortization = $230,000 - $200,000 = $30,000
20+ .05(t-300) = c
The equation includes the basic charge or $20 that is not dependent upon anything. Then the equation has you determine how many minutes will be charged by subtracting the 300 provided minutes from t. t represents the total number of minutes. Once the subtraction is completed, you will multiply the number of minutes by the 5 cents (,05), adding in the 20 for total cost for the month.
Answer:
8.33 hours or 8 hour 20 minutes
Explanation:
A small metal shop operates 10 hours each day, producing 100 parts/hour.
If productivity were increased 20%, then the production will be 120 parts/hour
Then the number hours the plant have to work to produce 1000 parts will be 1000 units / 120 parts per hour = 8.33 hours or 8 hour 20 minutes