Power outages, camping trips, and job sites all demand one thing—reliable electricity. That’s where dual fuel inverter generators come in. These compact yet powerful machines can run on either gasoline or propane, offering flexibility and convenience when you need backup power the most. But which fuel should you use—gas or propane? What are the real benefits of dual fuel over single fuel options? In this article, we’ll break down how dual fuel inverter generators work, compare gas and propane performance, and help you decide which setup is right for your needs. What Is a Dual Fuel Inverter Generator? Looking for…
Author: Rachel
Ozone generators are powerful tools designed to purify air, eliminate odors, and disinfect surfaces. By producing ozone (O₃)—a reactive form of oxygen—these devices break down pollutants, bacteria, viruses, and mold at the molecular level. Ozone generators are used in a wide range of settings, from industrial spaces and hospitals to cars, homes, and water treatment facilities. This article explains What Is an Ozone Generator Used For, how it works, and why proper handling is essential. What Is an Ozone Generator? Curious about ozone generators? Eureka Technical Q&A explains how these devices produce ozone to purify air and eliminate odors, highlighting…
If you’re a performance car enthusiast, you’ve probably heard the term “stroker engine” thrown around in conversations about power upgrades. But what exactly is a stroker engine, and why do so many engine builders swear by it? A stroker engine is an internal combustion engine that’s been modified to increase its stroke length—the distance the piston travels within the cylinder. By extending the stroke, the engine gains displacement, torque, and, in many cases, overall power. This makes stroker builds especially popular in drag racing, muscle cars, and high-performance street applications. This article breaks down what a stroker engine is, how…
From cars and motorcycles to generators and small aircraft, reciprocating engines power much of the world around us. You’ve likely encountered this type of engine without even realizing it. So, what exactly is a reciprocating engine, and why is it so widely used? In simple terms, a reciprocating engine converts fuel into mechanical energy through the back-and-forth motion of a piston. This motion—called reciprocation—is then transformed into rotational energy, which powers wheels, propellers, or generators. This article breaks down how reciprocating engines work, their key parts, types, and the reasons behind their enduring popularity. What Is a Reciprocating Engine? What…
What Is Geometric Isomerism? Geometric isomerism—also called cis-trans isomerism—is a type of stereoisomerism found in molecules with restricted rotation around a bond, typically double bonds or cyclic structures. These isomers have the same molecular formula but differ in the spatial arrangement of atoms or groups. Although the difference may seem minor, geometric isomers can have dramatically different chemical properties, reactivity, and biological functions. This article explains what geometric isomerism is, how cis and trans isomers differ, and why understanding this concept is essential in organic chemistry and real-world applications. What is geometric isomerism? Eureka Technical Q&A explains this type of…
Aldol condensation is a reaction where two aldehydes or ketones, or a combination of both, react in the presence of a base or acid to form a β-hydroxy carbonyl compound (aldol), which then undergoes dehydration to yield an α,β-unsaturated carbonyl compound. The name “aldol” comes from the two functional groups involved: aldehyde + alcohol. What is aldol condensation? Eureka Technical Q&A explains this key organic reaction where aldehydes or ketones combine to form larger β-hydroxy compounds, followed by dehydration, making it essential in synthetic chemistry and industrial applications. General Reaction Format Reactants: Aldehyde or ketone with α-hydrogenCatalyst: Base (e.g., NaOH)…
Metribuzin is a selective herbicide used to control a broad spectrum of weeds in agriculture. It belongs to the triazine family and targets both grasses and broadleaf weeds. Farmers widely apply it to crops like soybeans, potatoes, tomatoes, and sugarcane, where weed competition can reduce yields and quality. This article explains how C₈H₁₄N₄OS works, what crops it protects, and why it remains an essential tool in modern weed management strategies. What Is Metribuzin? What is metribuzin? Eureka Technical Q&A explains this selective herbicide used to control broadleaf weeds and grasses in crops like soybeans and potatoes, highlighting its mode of…
Cyclohexene is a flammable, colorless liquid with the formula C₆H₁₀. It belongs to the alkene family and contains a six-membered ring with one double bond. Because of this structure, cyclohexene reacts easily in chemical processes. Manufacturers and researchers value it as an intermediate in organic synthesis, particularly in the production of nylon and other polymers. This article explores how C₆H₁₀ is used in different industries, what makes it chemically useful, and why it continues to be a core raw material in modern manufacturing. What Is Cyclohexene? What is cyclohexene used for? Eureka Technical Q&A explains its role as an intermediate…
Calcium stearate is a white, waxy powder made from stearic acid and calcium oxide. As a calcium-based metallic soap, it delivers excellent lubricating, anti-caking, and water-repellent properties. These features make it an essential additive in numerous industries, including plastics, rubber, cosmetics, pharmaceuticals, and construction. This article explains how calcium stearate works, where it is most commonly used, and why it continues to be a preferred material in both industrial and consumer applications. What Is Calcium Stearate? What is calcium stearate? Eureka Technical Q&A explains this versatile compound used as a lubricant, stabilizer, and release agent in plastics, pharmaceuticals, and food…
Automated Material Handling is a cornerstone of modern logistics and manufacturing. Two of the most popular technologies used in this domain are Autonomous Mobile Robots (AMRs) and Automated Guided Vehicles (AGVs). While they both transport materials without human intervention, their navigation, flexibility, intelligence, and use cases differ significantly. This article breaks down the differences between AMR vs. AGV technologies, including how they operate, where they’re used, and which one is best suited for different environments. AMR vs. AGV – What’s the difference? Eureka Technical Q&A compares Autonomous Mobile Robots (AMRs) and Automated Guided Vehicles (AGVs), highlighting their navigation capabilities, flexibility,…