Answer:
The answer is $138.92
Explanation:
Solution
Given that:
Daryl today's Age = 30
The Retirement Age = 64
The Total Monthly Deposits = ( 64 - 30 ) * 12 = 408
Now,
In case of 12% Compounded Monthly , Interest Rate per month = ( 12% / 12 ) = 1%
Then,
The Effective Interest Rate per year = ( 1 + 0.12/12 )12 - 1 = 1.1268 - 1 = 0.1268 = 12.68%
So,
The Present value of Annual 25 Years withdrawal of $100,000 at time of Retirement = $100,000 * PVAF ( 12.68% , 25 )
= $100,000 * 7.4864
= $748,642.20
The Present Value of Money for nephew at time of Retirement = $1,000,000 * PVF ( 12.68% , 25 )
= $1,000,000 * 0.050535
= $50,534.52
Now
The Present Value of total Amount Required at time of Retirement = $748,642.20 + $50,534.52
= $799,176.70
Now
The monthly deposit be X
Which is,
= X * FVAF ( 408 , 1% ) = $799,176.70
= X * 5752.85 = $799,176.70
X = $138.918
Therefore, Monthly Deposit for his retirement plan is = $138.92
Answer:
The BCWS is also known as Planned Value (PV).
So, in this way, <em>PV = 3.125.000</em>
Explanation:
With the data we can obtain the PV as follows:
First, let's calculate EV as EV = CV + AC.
EV = -500.000 + 4.000.000 = <em>3.500.000</em>
After this, we can calculate PV with this formula: SPI = EV/PV
PV = EV/SPI
PV = 3.500.000/1.12 = <em>3.125.000</em>
<em />
<em>We can conclude, with these results, that the project actually is forward about the schedule but with an overcost about the budget. In other words, the project advance must be 41% but now is on 36% due to the negative variance on the costs (CV).</em>
<em />
Answer:
The correct answer to the following question is Initiating phase of the product life cycle.
Explanation:
When a company undertakes a project there is always risk on the success of project objectives, that's why it is important that a company implements risk management process as early as they can in the projects life cycle, starting with the initiating phase of the life cycle. So that the risk can be identified in early stage and then it cab be assessed properly and right responses can be developed before moving on to next stage of projects life cycle.
Answer:
$34,243.28
Explanation:
Simple interest = P x r x t
where:
P = Principal
r = rate
T = time
Therefore simple interest = 20,000 x 6% x 4 = $4,800
Compound Interest = ((P*(1+r)^n) - P),
where P is the principal,
r is the annual interest rate = 7%, and
n is the number of periods = 4 years x 4 quarters a year.
Therefore compound interest = ((20000 (1+0.07)^16)-20000) = $39,043.28
Difference in interest = $39,043.28 - $4,800 = $34,243.28
