Chemical Standard Information
Chemical Standard Information: Master HPLC, SI Units & More!
Unlock the Secrets of Your Chemicals: A Guide to Chemical Standard Information
Ever wondered if your chemicals are performing to their exact potential? Unleash the power of precise analysis with a deep dive into chemical standard information. This comprehensive guide unlocks a treasure trove of knowledge, empowering you to make informed decisions and achieve superior results in your field. Throughout this exploration, we’ll delve into the world of chemical standard information tenfold, unravelling its significance and its role in guaranteeing the accuracy and consistency of your chemical endeavours.
Here, we’ll delve into some key aspects of chemical standard information, including:
HPLC Solvent Properties & Solvent Miscibility Table:
This section details the properties of solvents commonly used in High-Performance Liquid Chromatography (HPLC). It provides information like polarity, boiling point, and viscosity, allowing you to select the most suitable solvent for your specific analysis. Additionally, the solvent miscibility table indicates which solvents can be safely mixed, preventing unexpected reactions.
Physical Constants:
This section lists crucial physical properties of the chemical standard, such as melting point, boiling point, density, and refractive index. These constants offer valuable insight into the behaviour of the chemical under varying conditions.
Basic SI Units:
The International System of Units (SI) provides a standardized language for scientific measurements. Knowing the basic units, like metre (m) for length, kilogram (kg) for mass, and second (s) for time, allows for accurate interpretation of data and clear communication within the scientific community.
Prefixes used in SI System:
SI units often come with prefixes like “kilo-” (10^3) or “milli-” (10^-3) to express very large or small quantities. Understanding these prefixes ensures precise measurement and data analysis.
Acid-Base Indicator Selection:
When performing acid-base titrations, choosing the right indicator is essential to determine the endpoint accurately. This section might provide information on commonly used indicators and their colour change ranges at specific pH levels.
Common Units of Energy:
Energy, often measured in Joules (J), plays a vital role in many chemical reactions. This section might explain other commonly encountered energy units like calories (cal) or electron volts (eV) and their conversions to SI units.
Preparation of Standard Solution:
Creating solutions with precise concentrations is fundamental to quantitative analysis. This section might outline the steps involved in preparing standard solutions from a chemical standard, ensuring accurate data throughout your experiment.
By mastering this information, you’ll gain a deeper understanding of your chemical standards, allowing you to:
Optimize Experiment Design:
Select appropriate solvents and conditions for your analysis based on the standard’s properties.
Ensure Measurement Accuracy:
Interpret data correctly by understanding the units and prefixes used.
Enhance Data Analysis:
Identify trends and relationships more effectively with a comprehensive grasp of the standard’s behaviour.
Boost Confidence in Results:
Perform reliable experiments with the knowledge that your chemical standards are accurately characterized.
By harnessing the power of chemical standard information, you gain an unparalleled level of control over your chemical processes. This guide has equipped you with the essential knowledge to navigate the vast landscape of chemical standard information. Remember, for any further questions or to delve deeper into specific chemical standard information, our team of experts is here to assist you. Embrace the power of precision and embark on a journey of assured chemical analysis, all thanks to the invaluable resource of chemical standard information.
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To view complete detail of HPLC Solvent Properties & Solvent Miscibility Table Click here.
| Quantity | Symbol | Traditional Units | SI Units |
|---|---|---|---|
| Acceleration of gravity | g | 980.6 cm/s | 9.806 m/s |
| Atomic mass unit (1/12th of the mass of 12C atom) | amu | 1.6606 X 10-24 g | 1.6606 X 10-27 kg |
| Avogadro constant | Na | 6.022 X 1023 particles/mol | 6.022 X 1023 particles/mol |
| Boltzmann constant | k | 1.3807 X10-16 erg/K | 1.3807 X 10-23 J/K |
| Charge-to-mass ratio of electron | e/m | 1.7588 X 108 Coulomb/g | 1.7588 X 1011 C/kg |
| Electronic charge | e | 1.60219 X 10-19 Coulomb 4.8033 X 10-19 esu | 1.60219 X 10-19 C |
| Faraday constant | F | 96,487 C·eq-1 | 96,487 C·mol-1 |
| Gas constant | R | 1.987 cal/mol. K | 8.3145 kPa dm3/ mol .K 8.3145 J/ mol.K |
| Molar volume (STP) | Vm | 22.710981 L/mol | 22.710981 X 10-3 m3/mol 22.710981 dm3/ mol |
| Neutron rest mass | mn | 1.67495 X 10-24 g 1.008665 u | 1.67495 X 10-27 kg |
| Proton rest mass | mp | 1.6726 X 10-24 g 1.007277 u | 1.6726 X 10-27 kg |
| Electron rest mass | me | 9.10952 X 10-28 g | 9.10952 X 10-31 kg |
| Speed of light (in vacuum) | c | 2.9979 X 10-10 cm/s | 2.9979 X 108 m/s |
| Plank constant | h | 6.6262 X 10-27 ergs | 6.6262 X 10-34 J.s |
| Physical Dimension | Symbol for Quantity | SI Symbol | Name of SI Units |
|---|---|---|---|
| Length | l | m | meter |
| Mass | m | kg | kilogram |
| Time | t | s | second |
| Electric current | I | A | ampere |
| Thermodynamic temperature | T | K | Kelvin |
| Amount of substance | n | Mole | mole |
| Luminous intensity | Iv | cd | candela |
| Multiple | Prefix | Symbol |
|---|---|---|
| 10-15 | Femto | f |
| 10-12 | Pico | p |
| 10-9 | Nano | n |
| 10-6 | Micro | µ |
| 10-3 | Milli | m |
| 10-2 | Centi | c |
| 10-1 | Deci | d |
| 10 | Deca | da |
| 102 | Hecta | h |
| 103 | Kilo | k |
| 106 | Mega | M |
| 109 | Giga | G |
| 1012 | Tera | T |
| 1015 | Peta | P |
| Name | pH range | Color Change |
|---|---|---|
| Thymol Blue | 1.2-2.8 | Red to Yellow |
| Bromophenol Blue | 3.0-4.6 | Yellow to Blue |
| Congo Red | 3.0-5.0 | Blue to Red |
| Bromophenol Blue | 3.0-4.5 | Yellow to Blue |
| Methyl Orange | 3.2-4.2 | Red to Yellow/Orange |
| Bromocresol Green | 3.8-5.4 | Yellow to Blue |
| Methyl Red | 4.2-6.2 | Pink to Yellow |
| Methyl Red Hydrochloride | 4.2-6.2 | Pink to Yellow |
| Rosolic Acid | 5.0-8.0 | Mow to Red |
| Bromocresol Purple | 5.2-6.8 | Yellow to Purple |
| Alizarin | 5.8-7.2 | Yellow to Red |
| Bromothymol Blue | 6.0-7.6 | Yellow to Blue |
| m-Nitrophenol | 6.8-8.6 | Colorless to Yellow |
| Phenol Red | 6.8-8.2 | Yellow to Red |
| Cresol Red | 7.0-8.8 | Yellow to Violet Red |
| Thymol Blue | 8.0-9.2 | Yellow to Blue |
| Phenolphthalein | 8.0-10.0 | Colorless to Red |
| Thymolphthalein | 8.8-10.5 | Colorless to Blue |
| Alizarin | 1.0-13.0 | Red to Purple |
| Acid Fuchsin | 12.0-14.0 | Red to Colorless |
| Specific Gravity (20°C) | Molarity (M) | Qualtity required in ml to make 1 liter 1 Molar Solution | Normality (N) | Quantity required in ml to make 1 liter 1 Normal Solution | |
|---|---|---|---|---|---|
| Glacial Acetic acid | 1.05 | 17.4 | 57.5 | 17.4 | 57.5 |
| Ammonia 30% | 0.89 | 14.5 | 69 | 14.5 | 69 |
| Ammonia 25% | 0.91 | 13.4 | 74.6 | 13.4 | 74.6 |
| Hydrochloric acid 36% | 1.18 | 11.7 | 85.8 | 11.7 | 85.8 |
| Hydrofluoric acid 40% | 1.13 | 22.6 | 44.2 | 22.6 | 44.2 |
| Hydrofluoric acid 48% | 1.15 | 28.9 | 34.5 | 28.9 | 34.5 |
| Nitric acid 70% | 1.42 | 15.8 | 63.3 | 15.8 | 63.3 |
| Perchloric acid 60% | 1.54 | 9.2 | 108.7 | 9.2 | 108.7 |
| Perchloric acid 70% | 1.67 | 11.6 | 86.2 | 11.6 | 86.2 |
| Sulphuric acid 98% | 1.84 | 18 | 53.1 | 36 | 26.2 |
| Phosphoric acid 85% | 1.7 | 15.2 | 65.8 | 45.6 | 21.9 |