Description
Specifications Table
Product Name – EDTA0.1M (0.2N) Volumetric Solution Nist Traceable
Quantity/Pack Size – 1 L
Form – Liquid
Grade – Analytical
Application – Titration, complexometric analysis
Product Overview
EDTA0.1M (0.2N) Volumetric Solution is a high-purity, NIST-traceable reagent designed for precise analytical applications in research and educational laboratories. This solution is formulated to meet stringent quality standards, ensuring accurate and reproducible results in complexometric titrations. The EDTA (Ethylenediaminetetraacetic acid) solution is prepared with meticulous attention to concentration and purity, making it ideal for determining metal ion concentrations in various samples. Its NIST-traceable certification guarantees traceability to international standards, enhancing reliability in analytical workflows. The solution is packaged in a convenient 1-liter container, ensuring ease of use and storage. Whether for academic research or industrial analysis, this volumetric solution delivers consistent performance, making it a trusted choice for professionals seeking precision and accuracy in their work.
FAQs
1. What is the primary use of EDTA0.1M volumetric solution?
EDTA0.1M volumetric solution is primarily used for complexometric titrations to determine metal ion concentrations in various samples.
2. Is this solution compatible with all types of titration setups?
Yes, this solution is compatible with standard titration setups commonly used in analytical chemistry.
3. What does NIST-traceable certification mean?
NIST-traceable certification ensures that the solution’s accuracy is traceable to the National Institute of Standards and Technology, a U.S. federal agency.
4. How should this solution be stored for optimal shelf life?
Store the solution in a cool, dry place away from direct sunlight to maintain its stability and accuracy.
5. Can this solution be used for environmental sample analysis?
Yes, this solution is suitable for analyzing metal ions in environmental samples, such as water and soil.
