dramarc
Chemical
- Jan 7, 2005
- 28
Hi!
I received a large quantity of data from one of my students.
The variables (factors) are the final concentration in a bulk solution.
Components A or B are mixed with different ratios of x or y or z...
Water is also used 0 or 0,1%
A and B are present at 0,4 or 0,8 % when added into the bulk solution.
X, y or z is present in 0,4 or 0,8 % in the final bulk solution when added to A or B in the lower conc. and 0,8 or 1,6% when added to the high conc. of A or B.
That makes 48 experiments (+4 repetitive experiments for standard deviation).
Only one response is measured in these experiments (a quality factor 0-100)
I’m familiar with “design of experiments” programs but this time the experiments are already carried out and I don’t know who to get the different components contribution to the results?
Could you give me some ideas how to sent up this program or links to similar problems?
Maybe I can’t use multivariate analysis for this problem?
Looking forward to your responses
I received a large quantity of data from one of my students.
The variables (factors) are the final concentration in a bulk solution.
Components A or B are mixed with different ratios of x or y or z...
Water is also used 0 or 0,1%
A and B are present at 0,4 or 0,8 % when added into the bulk solution.
X, y or z is present in 0,4 or 0,8 % in the final bulk solution when added to A or B in the lower conc. and 0,8 or 1,6% when added to the high conc. of A or B.
That makes 48 experiments (+4 repetitive experiments for standard deviation).
Only one response is measured in these experiments (a quality factor 0-100)
I’m familiar with “design of experiments” programs but this time the experiments are already carried out and I don’t know who to get the different components contribution to the results?
Could you give me some ideas how to sent up this program or links to similar problems?
Maybe I can’t use multivariate analysis for this problem?
Looking forward to your responses
