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- Posts: 1
- Joined: Tue Dec 20, 2016 3:32 am
Does any one have any information on how to calculate the uncertainty associated with bias from a forced through zero calibration curve.
We have a dual column headspace GC method for volatiles that uses a 4 point calibration curve with a linear regression that forces through zero using the data from one column. One column is used for quantification and the other for compound verification.
We are in the process of calculating the measurement uncertainty for this method and are a little stuck on how to include the bias from the force through zero.
One way I thought of was to take several batches of data (or our original validation data) and calculate both ways (through zero and not), and see what the difference would be at different levels of the curve. Then adding the noted effect into the budget in some fashion. I am not sure this is a valid approach.
Any information and assistance would be greatly appreciated.
We have a dual column headspace GC method for volatiles that uses a 4 point calibration curve with a linear regression that forces through zero using the data from one column. One column is used for quantification and the other for compound verification.
We are in the process of calculating the measurement uncertainty for this method and are a little stuck on how to include the bias from the force through zero.
One way I thought of was to take several batches of data (or our original validation data) and calculate both ways (through zero and not), and see what the difference would be at different levels of the curve. Then adding the noted effect into the budget in some fashion. I am not sure this is a valid approach.
Any information and assistance would be greatly appreciated.
