Answer:
$93,750
Explanation:
Required: "<em>Calculate the overhead assigned to the fabric case using the traditional costing system based on direct labor hours."</em>
<em />
Total estimated overhead costs (A) = 150,000
Total labor hours (B) = 15,000 + 9,000 = 24,000
Overhead allocation rate (C) = A/B = 150,000/24,000
Overhead allocation rate (C) = $6.25 Per labor hour
Total labor hours used by Fabric case (D) = 15,000 Hours
Overhead assigned to the fabric case (C*D) = $6.25 Per labor hour * 15,000 Hours = $93,750
Answer:
Its action would be optimal given an ordering cost of $28.31 per order
Explanation:
According to the given data we have the following:
economic order quantity, EOQ= 55 units
annual demand, D=235
holding cost per one unit per year, H=40%×$11=$4.4
ordering cost, S=?
In order to calculate the ordering cost we would have to use the following formula:
EOQ=√(<u>2×D×S)</u>
(H)
Hence, S=<u>(EOQ)∧2×H</u>
2×D
S=<u>(55)∧2×4.4</u>
2×235
S=<u>13,310</u>
470
S=$28.31
Its action would be optimal given an ordering cost of $28.31 per order
Answer:
$950 in order to maximize the revenue.
Explanation:
The computation of monthly rent in order to maximize revenue is shown below:-
R (x) = Rent price per unit × Number of units rented
= ($900 + $10 x) × (100 - x)
= $90,000 - 900 x + 1000 x - 10 x^2
R (x) = -10 x^2 + 100 x + $90,000
Here to maximize R (x), we will find derivative and equal it to zero
R1 (x) = -20 x + 100 = 0
20 x = 100
x = 5
Therefore the monthly rent is p(5) = $900 + 10(5)
= $900 + 50
= $950 in order to maximize the revenue.
These dashboards help teams keep track of the progress and success of company-wide metrics and enable management to make data-driven decisions on future business goals. Management dashboards may include graphs, images, tables, numeric data, and data from case studies, or a combination of these elements.