How Do You Spell MEMBRANE POTENTIALS?

Pronunciation: [mˈɛmbɹe͡ɪn pətˈɛnʃə͡lz] (IPA)

Membrane potentials are a key concept in physiology and neuroscience, referring to the electrical charge across cellular membranes. The spelling of this word is fairly straightforward when broken down phonetically using the International Phonetic Alphabet (IPA). The first syllable, "mem," is pronounced /mɛm/, as in the word "memory." The second syllable, "brane," is pronounced /breɪn/, rhyming with "rain." The final syllables, "potentials," are pronounced /pəˈtɛn(t)ʃəlz/, with the stress on the second syllable and a slight schwa sound in the final syllable. Overall, the spelling accurately represents the pronunciation of this important term.

Meaning and Definition
Common Misspellings
Etymology
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MEMBRANE POTENTIALS Meaning and Definition

  1. Membrane potentials, also known as transmembrane potentials, refer to the voltage difference that exists across a cell's plasma membrane. It is created by the separation of charged ions on either side of the membrane, creating an electrical potential across the membrane.

    In cells, the membrane potential is primarily generated through the active transport of ions, such as sodium (Na+), potassium (K+), and calcium (Ca2+), by specialized membrane proteins called ion channels and pumps. These proteins allow ions to move across the cell membrane, thereby generating and regulating the membrane potential.

    Typically, cells have a negative resting membrane potential, meaning that the inside of the cell is negatively charged compared to the outside. This is mainly due to the higher concentration of negative ions, such as chloride (Cl-) and proteins, within the cell. Additionally, the selective permeability of the cell membrane to different ions plays a crucial role in establishing and maintaining the membrane potential.

    Membrane potentials are essential for various cellular processes, including the transmission of nerve impulses, muscle contractions, and the movement of substances across the cell membrane. They enable the rapid communication between cells and allow for the generation of electrical signals necessary for proper physiological function.

    Overall, membrane potentials represent the electrical state of a cell and are crucial for the regulation and coordination of cellular activities.

Common Misspellings for MEMBRANE POTENTIALS

  • nembrane potentials
  • kembrane potentials
  • jembrane potentials
  • mwmbrane potentials
  • msmbrane potentials
  • mdmbrane potentials
  • mrmbrane potentials
  • m4mbrane potentials
  • m3mbrane potentials
  • menbrane potentials
  • mekbrane potentials
  • mejbrane potentials
  • memvrane potentials
  • memnrane potentials
  • memhrane potentials
  • memgrane potentials
  • membeane potentials
  • membdane potentials
  • membfane potentials
  • membtane potentials

Etymology of MEMBRANE POTENTIALS

The word "membrane" originates from the Latin "membrana" meaning "thin skin" or "parchment". It was later adopted into English as a term for a thin layer of tissue that separates different parts of the body.

The word "potential" comes from the Latin "potentialis", with "potentia" meaning "power" or "ability". In the context of membrane potentials, it refers to the electrical potential energy that exists across a cell membrane.

Therefore, the term "membrane potential" combines "membrane", referring to the thin layer of tissue, and "potential", indicating the electrical energy across this membrane.