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Product Name | NANOCOLOR BOD5-TT tube test |
Measuring Range | 0.5-3000 mg/L O2 |
Number Of Determinations | 22 |
Sufficient For | 22 determinations |
Attributes | N/A |
FAQ
What is the measuring range of the NANOCOLOR BOD5-TT tube test?
The measuring range of the NANOCOLOR BOD5-TT tube test is 0.5-3000 mg/L O2 sufficient for 22 determinations.
How many determinations can be performed with one tube test?
One NANOCOLOR BOD5-TT tube test allows for 22 determinations to be performed.
What is the advantage of the wide measuring range of 0.5-3000 mg/L O2?
The wide measuring range of 0.5-3000 mg/L O2 allows for flexibility in measuring different levels of BOD5 in water samples.
Is there a limit to the number of determinations that can be performed within the measuring range?
Yes, the NANOCOLOR BOD5-TT tube test is limited to 22 determinations within the measuring range of 0.5-3000 mg/L O2.
How many determinations can be performed if the measuring range is extended beyond 3000 mg/L O2?
The NANOCOLOR BOD5-TT tube test is specifically designed for a measuring range of 0.5-3000 mg/L O2, and extending beyond this range may result in inaccurate determinations.
The measuring range of the NANOCOLOR BOD5-TT tube test is 0.5-3000 mg/L O2 sufficient for 22 determinations.
How many determinations can be performed with one tube test?
One NANOCOLOR BOD5-TT tube test allows for 22 determinations to be performed.
What is the advantage of the wide measuring range of 0.5-3000 mg/L O2?
The wide measuring range of 0.5-3000 mg/L O2 allows for flexibility in measuring different levels of BOD5 in water samples.
Is there a limit to the number of determinations that can be performed within the measuring range?
Yes, the NANOCOLOR BOD5-TT tube test is limited to 22 determinations within the measuring range of 0.5-3000 mg/L O2.
How many determinations can be performed if the measuring range is extended beyond 3000 mg/L O2?
The NANOCOLOR BOD5-TT tube test is specifically designed for a measuring range of 0.5-3000 mg/L O2, and extending beyond this range may result in inaccurate determinations.