Answer: Bonus pay plan of individual-level performance-based pay
Explanation:
In this scenario, an extrinsic reward used here is the bonus pay plan. An extrinsic reward simply means a reward that is being given to the employee of a particular company after a particular thing has been achieved.
Here, a bonus pay plan of individual-level performance-based pay is being used. A bonus is given to the employee for meeting a particular requirements. Bonus are calculated base on either the percentage of ones wages or salaries or by using a flat rate.
<span>This is an example of, "medicalization and the social construction of health and illness".
</span><span>Medicalization is examined from a sociologic point of view regarding the part and energy of experts, patients, and enterprises, and furthermore for its suggestions for ordinary individuals whose self-character and life choices may rely upon the overall ideas of health and illness.
</span>
The accounts affected are Ross company and rent account
Answer:
$870
Explanation:
When a company makes sales on account, debit accounts receivable and credit sales. Based on assessment, some or all of the receivables may be uncollectible.
To account for this, debit bad debit expense and credit allowance for doubtful debt. Should the debt become uncollectible (i.e go bad), debit allowance for doubtful debt and credit accounts receivable.
Allowance for uncollectible accounts at 5%
= 5% * $302,000
= $1,510
Since the Allowance for Uncollectible Accounts was $640 (credit) before any adjustments, the bad debt expense for the year
= $1,510 - $640
= $870
Answer:
a. How long will the current bridge system work before a new bracing system is required?: 64.18 years or 64 years and 2 months.
b. What if the annual traffic rate increases at 8 % annually: The bracing system will last for 24.65 years or 24 years and 7 months.
c. At what traffic increase rate will the current system last only 12 years: 17.13%
Explanation:
a. Denote x is the time taken for the number of pedestrian to grow from 300 to 2000. The current pedestrian is 300, the grow rate per year is 3% or 1.03 times a year. Thus, to reach 2,000, we have the equation: 300 x 1.03^x = 2000. Show the equate, we have 1.03^x = 6.67 <=> x = 64.18
b. Denote x is the time taken for the number of pedestrian to grow from 300 to 2000. The current pedestrian is 300, the grow rate per year is 8% or 1.08 times a year. Thus, to reach 2,000, we have the equation: 300 x 1.08^x = 2000. Show the equate, we have 1.08^x = 6.67 <=> x = 24.65.
c. Denote x as traffic increase rate. The current pedestrian is 300, the grow rate per year is (1+x) times a year. Thus, to reach 2,000 after 12 years and thus a new bracing system to be in place, we have the equation: 300 x (1+x)^12 = 2000. Show the equate, we have (1+x)^12 = 6.67 <=> 1+x = 1.1713 <=> x = 17.13%.
