superannuation help - hard! (1 Viewer)

Joined
Mar 15, 2008
Messages
202
Gender
Male
HSC
N/A
Hey guys,

I really need help with these superannuation/series questions. They're of Yr 11/12 advanced standard.

Q1. An amount of $3000 is invested in a superannuation fund at the start of each year for 18 years. The interest at a rate of 9% p.a is paid every half-year. How much is the investment worth after 18 years?

I got an answer around $138,000 for this one but I'm not sure...

Q2. A man contributes $1200 each year into a superannuation fund for the first 30 years of his working life. For the next fifteen years (until retirement), he decides to increase this, and invests a total of $5000 each year.

If the investment earns 8% p.a. paid yearly over the whole year period , how much will his investment be worth upon retiring?

I have no clue about what this question is saying...



Thanks in advance,

lookoutastroboy
 

whateverrrr

Banned
Joined
Jul 20, 2009
Messages
108
Gender
Female
HSC
2006
Hey guys,

I really need help with these superannuation/series questions. They're of Yr 11/12 advanced standard.

Q1. An amount of $3000 is invested in a superannuation fund at the start of each year for 18 years. The interest at a rate of 9% p.a is paid every half-year. How much is the investment worth after 18 years?

I got an answer around $138,000 for this one but I'm not sure...

Q2. A man contributes $1200 each year into a superannuation fund for the first 30 years of his working life. For the next fifteen years (until retirement), he decides to increase this, and invests a total of $5000 each year.

If the investment earns 8% p.a. paid yearly over the whole year period , how much will his investment be worth upon retiring?

I have no clue about what this question is saying...



Thanks in advance,

lookoutastroboy
Hey buddy,

The answer to the first question is solved by as follows:

3000 (( (1.045)^36 - 1)/0.045) = $258491.8974 I calculated using an online scientific calculator so I hope its correct. I am at work and my calculator is at home lol.

In regards to the second question, all it is saying pretty much that he invests $1200 each year for 30 years and then after the 30 years, he decides to invest $5000 for the next 15 years. Just think about it buddy. So the total accum. value after the total 45 years is found by the following working out:

1200(( (1.08)^30 - 1)/0.08) + 5000(( (1.08)^15 - 1)/0.08) = 135939.8533 + 135760.5696

Which therefore results in a total of $271700.4229

Hope that helps mate
 

Lukybear

Active Member
Joined
May 6, 2008
Messages
1,466
Gender
Male
HSC
2010
Hey buddy,

The answer to the first question is solved by as follows:

3000 (( (1.045)^36 - 1)/0.045) = $258491.8974 I calculated using an online scientific calculator so I hope its correct. I am at work and my calculator is at home lol.
Q2 is right, but Q1, i think it 273124.028, acquired from
3000 (( (1.045)^37 - 1)/0.045)

cause its (1+1.045...+1.045^36)
 

Users Who Are Viewing This Thread (Users: 0, Guests: 1)

Top