Two people, Alf and Bertha, are both 21. They are earning the same pay and they have the same prospects. Alf lives for the moment and is a Now-person but Bertha is more introspective and thoughtful. Alf sees no need to save any money. Bertha disagrees: she starts putting money aside for her old age.
This is called a pension.
Bertha puts an amount b into her pension fund every month. Bertha lives quite comfortably because she has picked amount b to fit with her lifestyle. Alf is spending amount P without thought. It probably disappears in beer and cigarettes. Or perhaps cars and women, both not quite as fast as he dreams.
There’s a bit of a counting problem here. Assume they start work in September; then any savings are paid into a fund after payday, and they probably lose most of two months. Ten years later, at the start of September, she would have paid 117 or 118 contributions; so think of ‘ten years later’ as being December, 120 payments later, interest due on all of them, contribution 121 due any moment.
Consider what happens to Bertha’s savings. Assume she can gain a decent rate of interest of i% per year. By the time she is ten years older, she has invested 120 b. The first payment has collected interest for the whole ten years, b (1+i/12)^120 and the whole fund, assuming her 121st payment is about to be paid (so payment number 120 has interest due) is, using j = 1+i/12,
Bertha’s Total after ten years = b* (j120 - 1) / (j-1) = b *(12/i)* [(1+i/12)120 -1]
I’m going to call this B(10). You should check my algebra (you should have; I left an error (an extra j) from 201006 to 201302).
As an example, if b = £100 and i = 5%, then B(10) = £15528.23, when she has invested £12000 - she has, in some people’s minds, added 30% already. Do not confuse money now and money later; there is an issue (known as present value) that must be considered. What matters is the ‘real’ value, and that depends upon the excess of the rate i over inflation.
At this point ten years after Bertha has started saving, Alf settles down, gets the stability message, and starts saving in the same way as Bertha, putting aside £100 every month. In another 30 years, when they are both 61, (let’s say) he will have made 360 payments. His total pension fund, Total A(30), will be £100 *12* [(1-(1.0041666)-360 )/ i] = £83225.86.
Bertha adopts Alf’s old habits just three years later and leaves her pension where it is. It still gains compound interest, though and 27 more years later, her B(13), £21910.94, will have grown, to B(13) x j 324 = £84283.10. which is more than Alf will have. Please check my arithmetic for yourself, as there are rounding issues to consider. Any small differences will grow, but small is still small.
Obviously, investing early is a good idea. Bertha’s method matches Alf’s for return. She looks to the future early and can then relax (she probably spends the money on raising the children, she might even not be working - but she is going to equal Alf’s savings when they retire).
If they could find i=6%, then Bertha needs only to invest for 11 years and then rest for 30 to exceed Alf investing for 31 years - a single year of overlap. Yes, I picked the numbers to to make Bertha have more than Alf - it makes the argument a lot stronger.
If Bertha continues to save (continues to put amount b into her pension every month) then her pension is around 80% more than Alf’s. She will have that much more money available all through retirement. Is Alf a fool for delaying? Will either of them have enough money for their retirement? How much should you put aside? Many people settle for a target of 10% of gross salary. Each year.
Here’s a table showing how Bertha’s savings exceed Alf’s:
Alf’s Bertha’s Interest Bertha | Alf’s Bertha’s Interest Bertha
years years rate p.a. Alf | years years rate p.a. Alf
30 40 5% 1.833 | 32 42 5% 1.811
30 40 6% 1.983 | 32 42 6% 1.961
You could easily set up a spreadsheet to explore this more fully, but I hope the point is made:
The earlier you start saving, the better off you will be.
There is a saying in English that applies. There is a very similar proverb in Chinese.
The early bird catches the worm.
DJS 20100625
small edits and a change of arithmetic, 20130209