# How to solve linear equation in android? [closed]

i want to know how to solve equations in android

my equation is as under:-
`SV = A*((1-R)^N) * (1-(R*(M/12)))`

where SV is some value,
A is Amount,
R is Rate,
N is years,
M is Months.

i want to find R

i don't know how to do this in coding
let me know if any additional lib files are also required.

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## closed as off-topic by nKn, James Westgate, user1981275, Michael Kohne, Tim BApr 3 '14 at 13:43

This question appears to be off-topic. The users who voted to close gave this specific reason:

• "This question appears to be off-topic because it lacks sufficient information to diagnose the problem. Describe your problem in more detail or include a minimal example in the question itself." – nKn, James Westgate, user1981275
If this question can be reworded to fit the rules in the help center, please edit the question.

Please rephrase the question by giving domains for the values, include a reference to Java and provide a bit more context. I hope the question will be reopened and answered with the comments below. –  Codor Apr 3 '14 at 14:41

I tried simplifying the above and I reached this point,

``````SV = A * ((1-R)^N) * (1-(R*(M/12)))
SV = A * (1-R)^N * (1-R) * (1-(M/12))

(1-R)^ N+1 = SV/ (A * (1-(M/12))

(1-R) = (N+1) root of (SV/ (A * (1-(M/12)))

R = ((N+1) root of (SV/ (A * (1-(M/12)))) + 1
``````

Now, all the Values on the RHS are known and can be replaced. Hope this helps. I am also keen for the output.

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Very good - the `n+1`-th root could then be calculated via `Math.pow( Value, ( 1.0f / ( N+1.0f ) ) )` and there would be no need for the binary search. –  Codor Apr 3 '14 at 13:39
The second step seems to be incorrect, `1-R(M/12)` is not equak to `(1-R)*(1-(M/12))`. –  Codor Apr 3 '14 at 13:45
I agree - I don't think the algebra is correct. –  duffymo Apr 3 '14 at 17:12
this gives wrong results, your algebra is not correct.. –  user140100 Apr 4 '14 at 5:50
Apologiesss. :( –  Atul O Holic Apr 4 '14 at 6:27

Rearrange the formula by dividing by `A`, then consider right-hand side without `A`. Perhaps `R` is to be constrained to lie between 1 and 0? The resulting right-hand side seems to be monotonically decreasing in `R` on the interval (0,1), so the desired value of `R` can be approximated by binary search. It can be done with the following code in Java.

``````double R( double SV, double A, double N, double M){
double DESIRED_ACCURACY = 0.01f; // customize this value
double targetvalue = SV / A;     // left hand side after rearranging
double upperbound = 1.0f;        // bounds for binary search
double lowebound = 0.0f;

double frac = M / 12.0f;

while ( upperbound - lowebound > accuracy ){
double mid = ( upperbound - lowerbound ) / 2.0f;
double evaluation = Math.Pow( 1.0f - midpoint, N ) * ( 1.0f - midpoint * frac );
if ( evaluation > targetvalue ){
upperbound = midpoint;
} else {
lowerbound = midpoint;
}
}

return ( upperbound - lowerboud ) / 2.0f;
}
``````
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i have updated my question with my equation, have a look... –  user140100 Apr 3 '14 at 12:59
It is a bit more difficult as `N` is used as an exponent. Is something more known about `N` - ideally the specific value? –  Codor Apr 3 '14 at 13:03
What do you want to achieve? Perhaps it can be done with an approach that is mathematically simpler? –  Codor Apr 3 '14 at 13:10
N is years, it is input provided by user –  user140100 Apr 3 '14 at 13:11
i just want to know the valur of 'R' i.e Rate –  user140100 Apr 3 '14 at 13:12