The term multielectrode refers to a system or device that utilizes multiple electrodes for measuring or stimulating electrical activity. These are often used in various fields such as neuroscience, electrochemistry, and medical diagnostics, allowing for more complex and comprehensive readings compared to single-electrode devices. The use of multielectrode arrays enables the simultaneous recording of activity from multiple sites, which is particularly important in research areas dealing with large-scale dynamic processes.
The term "multielectrode" is predominantly used in scientific and technical contexts, making it more common in written texts, such as research papers, journals, and textbooks, than in everyday speech.
The researchers used a multielectrode array to measure the brain's electrical activity during the experiment.
(Исследователи использовали многослойный электродный массив для измерения электрической активности мозга во время эксперимента.)
Multielectrode systems have revolutionized the way we observe neuronal interactions in real-time.
(Многослойные системы электродов произвели революцию в том, как мы наблюдаем за нейронными взаимодействиями в реальном времени.)
In medical diagnostics, a multielectrode setup can improve the accuracy of heart monitoring.
(В медицинской диагностике установка с несколькими электродами может повысить точность мониторинга сердца.)
While "multielectrode" does not commonly appear in idiomatic expressions due to its technical nature, it is often discussed in a context-specific manner. However, examples related to its usage in phrases relevant to science and technology may include:
The multielectrode setup was a game changer for understanding cardiac arrhythmias.
(Настройка с многослойным электродом изменила правила игры в понимании сердечных аритмий.)
Utilizing a multielectrode array gives us an edge in neuroimaging studies.
(Использование многослойного электрода дает нам преимущество в исследованиях нейровизуализации.)
The combination of multielectrode systems and advanced algorithms has enhanced data accuracy.
(Сочетание многослойных систем электродов и современных алгоритмов повысило точность данных.)
The word multielectrode is derived from "multi-", a prefix meaning "many" or "multiple," and "electrode," which comes from "electro" relating to electricity and "ode," which is derived from the Greek word "hodos" meaning "road" or "path." The combination suggests a "path for many electrical currents."
In summary, the term "multielectrode" is primarily scientific and technical, referring to systems that incorporate multiple electrodes for enhanced data collection in various fields. Its usage is largely confined to written contexts, particularly in research and academia.