For the year ended December 31, 2018, the warranty-related entry would include a debit to warranty expense of $80,000.
If it's miles impracticable to determine the cumulative impact of applying a trade-in accounting principle, then the new accounting principle should be applied prospectively as of the earliest date practicable. in this situation, the disclosures discussed in FSP 30.4.
Cumulative effect equals the difference between the actual retained profits suggested at the beginning of the yr using the antique approach and the retained income that would have been reported at the start of the year if the brand-new technique had been utilized in earlier years.
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Answer:
outstanding, $1,000 par value, 30 years to maturity, selling for 108 percent of par; the bonds make semiannual payments. Common stock: 440,000 shares outstanding, selling for $62 per share; the beta is 1.05. Market: 11 percent market risk premium and 5.2 percent risk-free rate. What is the company's WACC
Answer:
B. Improved adjustment to technological changes.
Explanation:
Vertical Integration: It is a strategy to gain competitive advantage by taking complete control over a few stages of production or distribution. The company implements vertical integration to reduce the cost of production, reduce dependence on others, improve the quality of the product, etc.
In the given case, the company pursuing vertical integration can gain market power over its competitors through improved quality, reduction in cost, and reduction in operation cost, however, it does not improve adjustment to technological changes.
Answer:
The answer is: 14,400 different production sequences are possible
Explanation:
For this calculation I will assume that the first 5 operations can be made in any order, as well as the last 5.
For the first set of machining operations, since they can go in any order, you choose one operation and then you have 4 operations left, then you choose another operation and you have 3 operations left, then you choose another operation and you have 2 operations left, you choose another option and you have only 1 operation left. This process can be expressed by the following equation: 5 x 4 x 3 x 2 x 1 = 120 possible different combinations. Mathematically it can also be expressed as 5! = 120
The same for the last 5 assembly operations, you have 5 x 4 x 3 x 2 x 1 = 120 possible different combinations.
So to get the total possible combinations of all the process, we just multiply 120 x 120 = 14,000 or 5! x 5! = 14,400