How Do You Spell MICROFLUIDIC?

Pronunciation: [mˌa͡ɪkɹə͡ʊfluːˈɪdɪk] (IPA)

The word "microfluidic" refers to the science and technology of manipulating fluids at a tiny scale, usually of the order of micrometers. The spelling of this word is influenced by the pronunciation of the word, which is often given as /ˌmaɪkrəʊfluːˈɪdɪk/ (my-kroh-floo-id-ik) using IPA phonetic transcription. This indicates the emphasis on the first syllable and the vowel sounds in each syllable. The word is spelled using the prefix "micro-" meaning ‘small’ or ‘minute’, and "fluidic" which means ‘relating to fluids', combining to create a term that describes this specific field of study.

MICROFLUIDIC Meaning and Definition

  1. Microfluidics is a multidisciplinary field that encompasses the study, design, and manipulation of small volumes of fluids (measured in microliters or smaller) flowing through tiny channels or structures on a microscale, typically at dimensions ranging from tens to hundreds of micrometers. It involves the integration of various scientific disciplines such as physics, chemistry, engineering, and biology to create systems that exploit the unique properties of fluids at the microscale.

    The main objective of microfluidics is to control, manipulate, and analyze minuscule amounts of fluids with precise control, high efficiency, and rapid response times. These small volumes allow for improvements in a wide range of applications, including analytical chemistry, diagnostic devices, lab-on-a-chip technologies, biotechnology, drug delivery systems, and genetic analysis.

    Microfluidic systems consist of microchannels, chambers, valves, pumps, and other devices that serve as platforms for fluid manipulation. These systems often take advantage of properties, such as surface tension and laminar flow, that differ from traditional macrofluidics. The low Reynolds numbers at the microscale ensure that fluid flow is predictable and controllable, leading to enhanced precision and reproducibility.

    The benefits of microfluidics include reduced sample and reagent consumption, shorter reaction times, better sensitivity, portable devices, high throughput, and integration with other technologies. By exploiting the unique capabilities of microfluidic systems, researchers and scientists can address challenges in diverse fields, helping to advance scientific understanding, improve analytical techniques, and develop innovative applications for various industries.

Common Misspellings for MICROFLUIDIC

  • nicrofluidic
  • kicrofluidic
  • jicrofluidic
  • mucrofluidic
  • mjcrofluidic
  • mkcrofluidic
  • mocrofluidic
  • m9crofluidic
  • m8crofluidic
  • mixrofluidic
  • mivrofluidic
  • mifrofluidic
  • midrofluidic
  • miceofluidic
  • micdofluidic
  • micfofluidic
  • mictofluidic
  • mic5ofluidic
  • mic4ofluidic
  • micrifluidic
  • micofluidic
  • microfluidics
  • microfludics
  • micrfludic

Etymology of MICROFLUIDIC

The word "microfluidic" is derived from two components: "micro-" and "fluidic".

1. "Micro": The prefix "micro-" comes from the Greek word "mikros", meaning "small". It is commonly used to refer to something very small or microscopic in size.

2. "Fluidic": The term "fluidic" is derived from the noun "fluid", which traces back to the Latin word "fluidus" meaning "liquid, flowing". The suffix "-ic" in English denotes "relating to" or "pertaining to".

Therefore, the word "microfluidic" combines the idea of something small or microscopic ("micro-") with the concept of flowing liquids ("fluidic") to describe a field or technology that deals with manipulating and controlling the behavior of fluids at a small scale.

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