Answer:
$418,550
Explanation:
Steps are shown below:
a. The computation of the economic order quantity is shown below:
= 
= 
= 2,040 units
b. The number of orders would be equal to
= Annual demand ÷ economic order quantity
= $52,000 ÷ 2,040 units
= 25.49 orders
c. The average inventory would equal to
= Economic order quantity ÷ 2
= 2040 units ÷ 2
= 1,020 units
d. The total cost of ordering cost and carrying cost equals to
Ordering cost = Number of orders × ordering cost per order
= 25.49 orders × $50
= $1,275
Carrying cost = average inventory × carrying cost per unit
= 1,020 units × $1.25
= $1,275
So, the total annual cost would be
= Purchase cost + ordering cost + carrying cost
= $416,000 + $1,275 + $1,275
= $418,550
Purchase cost = Annual demand × cost per unit
= 52,000 × $8
= $416,000
<span>Earned income typically includes salaries and bonuses, wages, commissions and tips. Union strike benefits are also considered earned income, as are long-term disability benefits received prior to minimum retirement age. So yes</span>
Answer:
a. multiplies the activity-based overhead rates per cost driver by the number of cost drivers expected to be used per product.
Explanation:
Costing is the measurement of the cost of production of goods and services by assessing the fixed costs and variable costs associated with each step of production.
Generally, an activity-based costing uses multiple cost pools such as manufacturing cost or customer services and multiple cost drivers such as direct labor hours worked, number of changes used in engineering department, etc.
Cost pool is simply the amount of money spent by a firm on a particular activity.
Hence, to assign overhead costs to each product, the company multiplies the activity-based overhead rates per cost driver by the number of cost drivers expected to be used per product.
In activity-based costing, the activity rate for an activity cost pool is calculated by using the following formula;
Activity rate = total overhead cost/activity for the activity cost pool.
Answer:
yes
Explanation:
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<span>(D) is the most correct answer. When the weather is bad, this will shift the supply curve of (mostly inelastic) farm goods to the left. This will, in turn, raise the equilibrium price that farmers will be able to receive for the products. All else equal, this will raise the overall profit that the farmers will receive, even in times of bad weather.</span>
