Instrumentation Tools


Our best Instrumentation Tools

In this category we will find useful tools for the instrumentation engineer, such as the measurement of Normal, Current and Standard flow or the calculation of the amount of product that leaks through a pipe. We will gradually add more tools to this section. The results of all calculators are exportable in spreadsheet format. If you have any questions or require further clarification, do not hesitate to contact us.


Absolute Viscosity of Common Gases Table

Check out our webpage featuring a table of the Absolute Viscosity of Common Gases. This resource provides valuable information for scientists, engineers, and researchers. Don't miss out on the opportunity to enhance your knowledge in this field! This table presents the absolute viscosity of some common fluids and his evolution against the temperature.

Heat Capacity Ratio of Common Fluids Table

Table of specific heats'ratio for common gases. This webpage provides information on the specific heats ratio of common gases, including air, nitrogen, oxygen, and carbon dioxide. Learn how to calculate this important thermodynamic property and why it matters in engineering and physics. Take your understanding of gases to the next level with our helpful guide.

Density of Common Liquids

Looking for information about the density of common liquids? Check out our webpage with a comprehensive table including densities of water, milk, oil, alcohol, and more. Whether you're a student, researcher, or just curious, this resource is a must-see. Don't miss out, visit our webpage today! This table presents the density of some common liquids and his temperature.

Molecular Weight of Common Gases

Looking for a quick reference on the molecular weight of common gases? Check out our webpage featuring a handy table with molecular weights for a variety of gases. From hydrogen to sulfur hexafluoride, our table has got you covered. Use it for research, calculations, or just to satisfy your curiosity. Visit our site now and take advantage of this useful resource!. This table presents the Molecular Weight of Common of Gases, including air, steam and natural gas, and his Formula.

Coefficients of Linear Thermal Expansion

Looking for information on the linear thermal expansion coefficient values for metals and alloys? Check out our comprehensive table, which provides detailed data on the thermal expansion properties of various metals and alloys. Whether you're an engineer, scientist, or student, this resource is a must-have for anyone working with these materials. So why wait? Visit our website today and access the information you need to excel in your field! This table presents the Linear Thermal Expansion Coefficient Values for Metals and Alloys


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Frequently Asked Questions


Q1 - What is density, and how is it measured?

Density is a fundamental physical property that quantifies how much mass is contained within a given volume of a substance. It is commonly expressed in units like grams per cubic centimeter (g/cm³) or kilograms per cubic meter (kg/m³). To measure density, you need to weigh a sample of the substance accurately and measure its volume. Divide the mass by the volume, and you'll obtain the density. The density of a substance can vary with temperature and pressure, so it's essential to specify these conditions when reporting density values.

Q2 - What is viscosity, and why is it important in various industries?

Viscosity is a measure of a fluid's resistance to flow. It quantifies how easily a substance flows or deforms under the influence of an applied force. It is typically expressed in units like pascal-seconds (Pa·s) or poise (P). Viscosity is crucial in industries such as automotive, pharmaceuticals, and food processing, as it affects the performance of lubricants, the efficiency of pumps, the quality of coatings, and the texture of food products. It can be influenced by factors like temperature, pressure, and the molecular weight of the substance.

Q3 - What is molecular weight, and how is it determined?

Molecular weight, also known as molar mass, is the mass of one mole of a substance expressed in grams per mole (g/mol). It is calculated by summing the atomic weights of all the atoms in a molecule. You can find molecular weight information on the periodic table. Molecular weight is a critical parameter in chemistry, especially in stoichiometry, where it helps in determining the quantities of substances involved in chemical reactions and in understanding the physical properties of substances.

Q4 - How are density, viscosity, and molecular weight related?

Density, viscosity, and molecular weight are interrelated in many ways. In liquids, viscosity is often influenced by the size and shape of the molecules, which are related to molecular weight. Substances with larger molecular weights tend to have higher viscosities due to increased intermolecular forces. Additionally, temperature can influence both viscosity and density. As temperature increases, the viscosity of most fluids decreases, while density usually decreases in gases but increases in liquids. Understanding these relationships is essential in various fields, such as fluid dynamics, materials science, and chemical engineering, as they impact the behavior of substances in various applications.

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