I’m using the API mpmath to compute the following sum

Let us consider the serie u0, u1, u2 defined by:

```
u0 = 3/2 = 1,5
u1 = 5/3 = 1,6666666…
un+1 = 2003 - 6002/un + 4000/un un-1
```

The serie converges on 2, but with rounding problem it seems to converge on 2000.

n Calculated value Rounded off exact value 2 1,800001 1,800000000 3 1,890000 1,888888889 4 3,116924 1,941176471 5 756,3870306 1,969696970 6 1996,761549 1,984615385 7 1999,996781 1,992248062 8 1999,999997 1,996108949 9 2000,000000 1,998050682 10 2000,000000 1,999024390

My code :

```
from mpmath import *
mp.dps = 50
u0=mpf(3/2.0)
u1=mpf(5/3.0)
u=[]
u.append(u0)
u.append(u1)
for i in range (2,11):
un1=(2003-6002/u[i-1]+(mpf(4000)/mpf((u[i-1]*u[i-2]))))
u.append(un1)
print u
```

my bad results :

```
[mpf('1.5'),
mpf('1.6666666666666667406815349750104360282421112060546875'),
mpf('1.8000000000000888711326751945268011597589466120961647'),
mpf('1.8888888889876302386905492787148253684796100079942617'),
mpf('1.9411765751351638992775070422559330255517747908588059'),
mpf('1.9698046831709839591526211645628191427874374792786951'),
mpf('2.093979191783975876606205176530675127058752077926479'),
mpf('106.44733511712489354422046139349654833300787666477228'),
mpf('1964.5606972399290690749220686397494349501387742896911'),
mpf('1999.9639916238009625032390578545797067344576357100626'),
mpf('1999.9999640260895343960004614025893194430187653900418')]
```

I tried to perform with some others functions (fdiv…) or to change the precision: same bad result

What’s wrong with this code ?

Question: How to change my code to find the value 2.0 ??? with the formula :

un+1 = 2003 - 6002/un + 4000/un un-1

thanks

`Calculated value`

and`Rounded off exact value`

? – Simon Jan 2 '12 at 9:14`calculated value is the value computed with the formula`

computed by what?`exact value is the value expected`

why is it expected ? – Simon Jan 2 '12 at 9:46`un+1`

->`u(n+1)`

,`4000/un un-1`

->`4000/[u(n) u(n-1)]`

– Andrew Jaffe Jan 2 '12 at 10:05