For the answer to the question above, I think that
Roxanne is likely to use the <u><em>"Test market"</em></u> <span>method to forecast demand. </span>
I hope my answer helped you. Have a nice day!
Answer:
Sequential interdependence on the line to pooled interdependence between the teams
Explanation:
Sequential interdependence occurs when a persons output is necessary for the performance of the next persons input. Perhaps the most obvious example of sequential interdependence is an assembly line.
While pooled interdependence he team accomplishes its tasks simply by bringing together everyone’s separate efforts. Like in DamierChrystern when the team work together to build the total car with the team deciding whi does what task. To be a team you need a team task — it requires that members actively work with each other to accomplish it
Answer:
1. It is ethical for her to list her job duties in great detail as she ahs still done the job in question.
2. It is unethical to embellish her job responsibilities as she includes responsibilities in her job that she has not done and has therefore lied to the job she is applying for.
3. Problems she may face is being fired for lying, made to do work that is not in her capabilities and can potentially damage the work assigned and job in general, as well as trouble by her colleagues and boss
4. She can include attributes that make her a promising individual. For example she states she can "learn on the fly" and thus can write in her resume that she is a quick learner and can adapt easily to her surroundings.
Answer:
6.80%
Explanation:
The average nominal returns is the sum of the returns for 5 years divided by the number of returns considered( i.e 5, 5 returns for 5 years)
average nominal returns=(6%-13%+24%+18%+15%)/5
average nominal returns=10.00%
The Fisher's equation is shown thus:
(1 + i) = (1 + r) (1 + π)
i=nominal return=10.00%
r=average real return=the unknown
π=inflation rate=3%
(1+10.00%)=(1+r)*(1+3%)
1.10=(1+r)*1.03
1+1=1.10/1.03
r=(1.10/1.03)-1
r=6.80%
What is the product that you want to find where it comes from?