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Difficult Superannuation Problem (1 Viewer)
- Thread starter Drewk
- Start date
Since this is a 2U question, maybe I can do this one.
Interest rate per compounding period is 0.75% = 0.0075 and each year, interest is compounded 12 times.
At the end of 20 yrs = 240 months:
1st $100 becomes $100 x [1.0075^12]^20
2nd $100 becomes $100 x [1.0075^12]^19
. . . .
2nd last $100 becomes $100 x [1.0075^12]^2
Final $100 becomes $100 x [1.0075^12]^1
.: total at end of 20 years = sum of all above
= $100 x [a geometric sum: 1st term = 1.0075^12, number of terms = 20 and common ratio = 1.0075^12]
^{20} - 1)}{1.0075^{12} -1})
= $5840.77
Interest rate per compounding period is 0.75% = 0.0075 and each year, interest is compounded 12 times.
At the end of 20 yrs = 240 months:
1st $100 becomes $100 x [1.0075^12]^20
2nd $100 becomes $100 x [1.0075^12]^19
. . . .
2nd last $100 becomes $100 x [1.0075^12]^2
Final $100 becomes $100 x [1.0075^12]^1
.: total at end of 20 years = sum of all above
= $100 x [a geometric sum: 1st term = 1.0075^12, number of terms = 20 and common ratio = 1.0075^12]
= $5840.77
Last edited:
SharkeyBoy
Member
- Joined
- Nov 15, 2012
- Messages
- 180
- Gender
- Male
- HSC
- 2013
It's compounded monthly, so 9%/12 + 1 = 1.0075
He puts in $100 every year at the beginning and so, by the time next year comes, it would have been compounded 12 times.
Therefore:
A1 = 100 (1.0075)^12*20
= 100 (1.0075)*240
A2 = 100 (1.0075)*228
A3 = 100 (1.0075)*216
...
...
A19 = 100 (1.0075)*24
A20 = 100 (1.0075)*12
The sum of these 20 years is: 100 (1.0075^240 + 1.0075^228 + .... + 1.0075^12)
the part in brackets is a geometric series where a = (1.0075^12), r = 1..075^12 and there are 2 terms
Therefore S20 = 100 [ 1.0075^12(1.0075^12)^20 - 1 ] / [ .0075^12]
= $5940.77 which means that either I'm slightly off, or you had a typo
Hope it helps either way
He puts in $100 every year at the beginning and so, by the time next year comes, it would have been compounded 12 times.
Therefore:
A1 = 100 (1.0075)^12*20
= 100 (1.0075)*240
A2 = 100 (1.0075)*228
A3 = 100 (1.0075)*216
...
...
A19 = 100 (1.0075)*24
A20 = 100 (1.0075)*12
The sum of these 20 years is: 100 (1.0075^240 + 1.0075^228 + .... + 1.0075^12)
the part in brackets is a geometric series where a = (1.0075^12), r = 1..075^12 and there are 2 terms
Therefore S20 = 100 [ 1.0075^12(1.0075^12)^20 - 1 ] / [ .0075^12]
= $5940.77 which means that either I'm slightly off, or you had a typo
Hope it helps either way
Last edited:
SharkeyBoy
Member
- Joined
- Nov 15, 2012
- Messages
- 180
- Gender
- Male
- HSC
- 2013
ooh sorry! Didn't see your post!
That's alright. I was just being too slow inputting my solution!ooh sorry! Didn't see your post!