Solving 3 simultaneous cubic equations <msubsup> i 1 3 </msubsup> L

Leland Morrow

Leland Morrow

Answered question

2022-06-14

Solving 3 simultaneous cubic equations
i 1 3 L 1 + i 1 K + V 1 + ( i 2 + i 3 + C ) Z n = 0
i 2 3 L 2 + i 2 K + V 2 + ( i 1 + i 3 + C ) Z n = 0
i 3 3 L 3 + i 3 K + V 3 + ( i 1 + i 2 + C ) Z n = 0
where L 1 , L 2 , L 3 , K , V 1 , V 2 , V 3 , C and Z n are all known constants.
What methods can I use to obtain the values of i 1 , i 2 and i 3 ?

Answer & Explanation

Brendon Fernandez

Brendon Fernandez

Beginner2022-06-15Added 14 answers

A numerical way to solve this would be to use the Newton-Raphson method. This method can be extended to 3 dimensions as follows:
i n + 1 = i n J 1 ( i n ) f ( i n )
Where J is the Jacobian matrix of the system:
J = [ 3 i 1 2 L 1 + K Z n Z n Z n 3 i 2 2 L 2 + K Z n Z n Z n 3 i 3 2 L 3 + K ]
Choose an initial "guess" i 0 , and repeat this process. Since it's an iterative process, the more times you evaluated it, the closer you get to the solution.
Misael Matthews

Misael Matthews

Beginner2022-06-16Added 5 answers

Any interactive method for solve this equations is difficult to calculate each interate manually. I recommend an already established method that has many theorems that guarantee convergence. Newton's method with guaranteed convergence theorems for Kantorovich is easy to implement in many computational software for numerical or algebraic computing.

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