# Given a bunch of ingredients, what ratios of each ingredient is being used?

I was wondering if it's possible to use math to figure out the ratios of each ingrendient in a dish.

Here are the things which are known:

each of the ingredients and their fat, protein and carbohydrate and calorie count (per 100 grams). The "relativity order" of the ingredients, that is - what is used most, then the second most used ingredients etc. The total calorie count of the dish and the fat, carbohydrate and protein levels.

Now intially from my fairly limited math skills it sounded like a system of linear equations, but there seemed to be too many unknowns.

Not only that but there are probably lots of combinations which could be combined and give the same answer - but the limiting factor being that the "relativity order" is given.

How would one go about solve something like this ?

Sample data:

```Final product 100 g which would be 45g water, 30g milk and 25g eggs Calories: 49,55
- Fat: 3g, Protein: 4,09g, Carbohydrates: 1,48

Data for ingredients:

the calories can also be decudec by Fat * 9 + Protein * 4 + Carbohydrates * 4

| Ingredient Order | Ingredient | Fat | Protein | Carbohydrates | Calories |
----------------------------------------------------------------------------
|       1          | Water      | 0   |    0    |    0          |     0    |
----------------------------------------------------------------------------
|       2          | Milk       | 1,5 |   3,3   |    4,7        |    46    |
----------------------------------------------------------------------------
|       3          | Eggs       | 10,2|  12,4   |    0,3        |   143    |
```
-
Perhaps you should provide some example of data, it will certanly help. –  Ivan0x32 Nov 6 '12 at 10:52
The field of linear programming (and simplex algorithm) deals with this. It optimizes a set of linear equations with constraints and inequalities. –  Aki Suihkonen Nov 6 '12 at 10:54
Off-topic here, this is clearly mathematics not programming related. –  High Performance Mark Nov 6 '12 at 11:06