Answer:
The correct answer is letter (3): Apply for mortgage; Purchase homeowners insurance; Do final walk-through; Sign closing documents.
Explanation:
The home closing process starts as soon as the buyer signs the contract with a real estate agent. In such a case, the buyer has had to apply and be accepted for a <em>mortgage </em>to cover the expenses of the property. Lenders require buyers to present <em>homeowners' insurance</em> which apart from being a requirement is important for the buyer and the financing entity.
Then, buyers must do a <em>final walk-through</em> of the home before they take possession of it to make sure it is in the conditions sellers offered. Finally, <em>additional documents </em>are signed such as a homestead declaration that registers the property with the federal and state government.
Answer:
The supply of savings increases.
Explanation:
We know that the supply of loanable funds is dependent upon the amount of deposits in the savings account. Supply curve of loanable funds represents the direct relationship between the quantity supplied and the interest rate. It is a upward sloping curve which indicates that an increase in the interest rate will lead to increase the quantity supply of loanable funds.
There is a change in the supply of loanable funds if there is any change in the savings behavior of the customers. If the savings of the customers increases then as a result the supply of savings also increases.
Answer:
The best batch size for this item is 400 units.
Explanation:
As given Annual demand (D)=1000 units, Carrying cost (H)=$10 per unit, set up cost (S)=$400.
As per the production order model formula will be:
\sqrt{2}D*S/H[1-d/p]} .
d for week=1000/50
=20. p per day
=40 units/7 days.
=5.71
d per day = 20/7
=2.85
Therefore on applying all these:\sqrt{}2*1000*400/10[1-2.85/5.7.
on solving this we will get 400 Units
Therefore, The best batch size for this item is 400 units.
Answer:
$32,647
Explanation:
P=R(1-(1+i)^-n)/i
Where P=$140,000
R=?
i=14%
n=7 years
by putting above values in formula, we get
140,000=R (1-(1+.14)^-7)/.14
$140,000=R4.288
R=$140,000/4.288
R=$32,647
Answer:
Bradford's estimated variable manufacturing overhead cost is $127,200
Explanation:
The cost function=$83,000+$12M
where M stands for machine hours required to produce the expected output in the month under review.
Each one-six unit case of Bradford's single product requires two machine hours,hence 5,300 cases would require 10,600 hours(5,300*2hrs).
Total estimated variable manufacturing overhead=cost per machine hour*expected number of machine hours
cost per machine hour is $12 as seen in the cost function
estimated variable manufacturing overhead=$12*10,600=$127,200
