Answer:
Rate of return is 20%
Explanation:
Rate of return is the actual return received on a investment. In this question Blaser Corporation invested $1,075,000 in asset and earned a income of $216,000. So the rate of return is as follow
Rate of return = Income received / Investment in Assets = $216,000 / $1,075,000 = 0.200 = 20%
Answer:
by utilizing the goods by their proper uses
Answer:
<u>Stand upright behind a podium to project authority.</u>
Explanation:
For Luiz to make a good presentation and meet the expectations of so many people attending his session, it is ideal that he uses a podium in the room to project authority and increase people's visibility. This will help you retain the audience's attention so that your presentation can flow accurately and dynamically, and that communication is delivered effectively.
The weighted average cost of capital is the cost approach that will produce an ending inventory value that is in between probable high and low costs (prices) using classic costing methods.
The weighted average cost of capital is the average cost of attracting investors, whether bonds or shareholders.
The computation weights the cost of capital depending on the amount of debt and equity used by the firm, providing a clear barrier rate for internal initiatives or future acquisitions.
The weighted average inventory cost is one of the approaches used in inventory valuation. It is computed by dividing the cost of products for sale by the number of units for sale. i.e The cost of the items for sale and the quantity of units for sale. Because it is based on averages, the ending inventory value is generally somewhere between high and low cost.
To know more about weighted average cost of capital click here:
brainly.com/question/17153162
#SPJ4
Answer:
The Expected time a customer spends in the system is 4
Explanation:
According to the given data we have the following:
Arrival rate A = 1 every other minute = 30/hour or (30/60) per minute
Service rate S = 84 seconds = 60×60/84= 42.86 customers per hour
System utilization factor P = A/S = 30/42.86 = 0.699
Length of the system L = P/(1-P) = 0.699/(1-0.699) = 2.322
Therefore, Expected time a customer spends in the system = L/A = 2.322/(30/60) = 4.644=4
