Answer:
1. 2,584
Explanation:
future payments: $1,000 in 1 year and $2,000 in 3 years
the present value of alternative I (one year bond):
$1,000 / 1.06 = $943.40
the present value of alternative II (first 2 years and then 1 year):
$2,000 / 1.065 = $1,877.93 ⇒ PV at year 2
PV at year 0 = $1,877.93 / 1.07² = $1,640.26
the total present value of both options = $943.40 + $1,640.26 = $2,583.66 ≈ $2,584
A. credit transaction
Your bank would pay the bill then either charge you for using their money or remove it from your "checking account" depends on the way you have it set up
Answer:
PV= $15,291.74
Explanation:
Giving the following information:
Annual cash flow= $1,5000
Number of years= 20
Interest rate= 7.5%
To calculate the present value, first, we need to determine the future value using the following formula:
FV= {A*[(1+i)^n-1]}/i
A= annual cash flow
FV= {1,500*[(1.075^20) - 1]} / 0.075
FV= $64,957.02
Now, we can calculate the present value:
PV= FV/(1+i)^n
PV= 64,957.02/(1.075^20)
PV= $15,291.74
Answer: B. $1,500
Explanation:
Cost of using Alpha Avenue
= 5,000 + (200 * 30 people)
= $11,000
Cost of using Beta Blvd.
= 8,000 + (150 * 30 people)
= $12,500
Cost savings = 12,500 - 11,000
= $1,500
