The machines' second-year depreciation under the straight-line method is $26,500.
To determine the depreciation amount using the straight-line method, we have to consider the machine's useful life only as the depreciation basis. The formula used for the calculation is: (Asset value-salvage value)/asset's useful life.
Answer:
planning process
Explanation:
Partners must be included in the planning process and their opinions must be sought in mission assignment. It is improper for the opinions of other contributing nations to be neglected during the planning process of a mission. As stated in the question, the commander must consider that national honor and prestige may be as important to a contributing nation as combat capability.
I think the most appropriate answer would be "inelastic demand". As the demand doesn't decrease significantly high and the cost of gasoline doesn't increase significantly increase that high.
(Inelastic demand is the the demand of a product does not changes too much/vigorously, as compared to elastic demand.)
I hope it helped you!
Missing Question Data:
As the Question is missing relevant data, I have searched for it online and found a question similar. The data is attached in a picture file. It might be a little different from your actual question but same approach can be used to solve the question.
Answer with Explanation:
For simplicity, we denote the compensations with variable <em>x </em>and the stock return with variable <em>y.</em> Let us first find the mean and standard deviation for both compensation (x) and return (y).
Mean of Compensation (<em>x) </em> will be,


Mean of Stock Return (y) will be,


Standard Deviation for Compensation (x) is given by,



Standard Deviation for Compensation (x) is given by,



To find the predicted stock return, we have to use the equation for of line of regression,

where,



Equation (1) will become,


.