Answer:
The company should provide, in average, 90 jobs per month in order to break even.
Explanation:
We will assume that the variable costs are proportional to the quantity and thus VC=a*Q
the profit obtained is
profit = P*Q , (Price [$/job] * Jobs sold [jobs])
and the total costs are
total costs= FC+VC = FC + a*Q , FC=fixed costs
in order to break even the quantity sold should be enough to cover all costs, therefore
profit = total costs
P*Q = FC + a*Q → Q= FC/(P-a)
thus
Q= FC/(P-a) = $3240 / ($60/job - $24/job) = 90 jobs
Answer with Explanation:
There are so many factors affecting the demand for a particular commodity. Four of these are: the price of the complements, the income of buyers, changes in trend and advertisements.
1. The price of the complements - Some commodities are complementary with each other, just like cars and gas. If the <em>price of cars decreases</em>, then many people will purchase their own cars, which also follows that <em>the demand for gas will increase.</em>
2. The income of buyers - If the income of a person increases, then he will most likely purchase a particular commodity because he can afford it and has an extra money to purchase goods.
3. Changes in trend - Many people purchase goods because they're on trend. For example, if flare pants are fashionable this year, then the demand for it will increase. Once they're no longer on trend, the demand will drop.
4. Advertisements - The more advertisements a company spends on, the more likely buyers will purchase a specific commodity.
Answer:
option (C) - 6.11%
Explanation:
Data provided :
Coupon rate one year ago = 6.5% = 0.065
Semiannual coupon rate =
= 0.0325
Face value = $1,000
Present market yield = 7.2% = 0.072
Semiannual Present market yield, r =
= 0.036
Now,
With semiannual coupon rate bond price one year ago, C
= 0.0325 × $1,000
= $32.5
Total period in 15 years = 15 year - 1 year = 14 year
or
n = 14 × 2 = 28 semiannual periods
Therefore,
The present value = ![C\times[\frac{(1-(1+r)^{-n})}{r}]+FV(1+r)^{-n}](https://tex.z-dn.net/?f=C%5Ctimes%5B%5Cfrac%7B%281-%281%2Br%29%5E%7B-n%7D%29%7D%7Br%7D%5D%2BFV%281%2Br%29%5E%7B-n%7D)
= ![\$32.5\times[\frac{(1-(1+0.036)^{-28})}{0.036}]+\$1,000\times(1+0.036)^{-28}](https://tex.z-dn.net/?f=%5C%2432.5%5Ctimes%5B%5Cfrac%7B%281-%281%2B0.036%29%5E%7B-28%7D%29%7D%7B0.036%7D%5D%2B%5C%241%2C000%5Ctimes%281%2B0.036%29%5E%7B-28%7D)
or
= $32.5 × 17.4591 + $1,000 × 0.37147
= $567.42 + $371.47
= $938.89
Hence,
The percent change in bond price = 
= 
= - 6.11%
therefore,
the correct answer is option (C) - 6.11%
Answer:
Results are below.
Explanation:
Giving the following information:
Company 1:
Beginning inventory Merchandise $253,000
Cost of purchases 600,000
Ending inventory Merchandise 153,000
Company 2:
Beginning Finished goods $506,000
Cost of goods manufactured 930,000
Ending Finished goods 147,000
<u>To calculate the cost of goods sold, we need to use the following formula:</u>
<u></u>
COGS= beginning finished inventory + cost of goods manufactured/purchased - ending finished inventory
<u>Company 1:</u>
COGS= 253,000 + 600,000 - 153,000
COGS= $700,000
<u>Company 2:</u>
COGS= 506,000 + 930,000 - 147,000
COGS= $1,289,000
<span>The research method that involves manipulating a variable in order to determine how it affects another variable (in a cause and effect relationships) is the experimental method. In this method, the experimenter would undergo several processes and along the way, he would manipulate the variables in order to see how it affects the other variable thus uncovering the cause and effect relationships of these variables.</span>