Answer:
The optimal order quantity is 316 pounds
Explanation:
In order to calculate What daily order quantity is optimal, we have to calculate first The cost of underestimating the demand Cu and cost of overestimating demand Co
Cu = ($0.60 - $0.50)*4 = $0.40
Co = $1 - $0.80 = $0.20
Next we have to calculate the Service Level = Cu / (Cu + Co)
= 0.40 / (0.40 + 0.20)
= 0.40/0.60
= 0.6667
So, Z Value at above service level = 0.430727
Therefore, in order to calculate the Optimal Order quantity, we would have to use the following formula
Optimal Order quantity= Mean + Z Value × Std Deviation
= 301 + 37 * 0.430727
= 301 + 15.36899
= 316 pounds
Answer:
$1,840
Explanation:
In order to calculate the Marginal cost of producing the computers in 2nd hour of work, we need to add the marginal cost of computer and marginal cost of wage in the 2nd hour of work.
MC = MC(computers) + MC(wage)
MC = $1,800(w) + $40
MC = $1,840
Working
MC (computers ) = 3 x 600$ = $1,800
hour computers assembled
1st 4
2nd 7
If pam works 2 hours she can assemble 7 computers but she already assembled 4 computers in 1st hour.
So the 2nd-hour computers will be 3 ( 7 - 4) computers.
Net pay is how much you made in a year after taxes YTD Net pay is how much you've made from January to the last day of the pay period before taxes
<span>When a firm doubles its inputs and finds that its output has more than doubled, this is known as economies of scale. When a business has reached economies of scale, that means there is an equal amount saved in costs by increasing the production amount. The more you produce the lower the cost is to produce those items and the more amounts of items you have to sell.
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