非欧损导电性英文解释翻译、非欧损导电性的近义词、反义词、例句
英语翻译:
【电】 non-ohmic conductivity
分词翻译:
非的英语翻译:
blame; evildoing; have to; non-; not; wrong
【计】 negate; NOT; not that
【医】 non-
欧的英语翻译:
【医】 ohm
损的英语翻译:
caustic; damage; decrease; harm; lose; mean
导的英语翻译:
guide; lead; teach; transmit
【医】 guidance; guide
电的英语翻译:
electricity
【计】 telewriting
【化】 electricity
【医】 Elec.; electricity; electro-; galvano-
网络扩展解释
非欧损导电性 - fēi ōu sǔn dǎo diàn xìng
非欧损导电性是一种材料在电流作用下不符合欧姆定律的导电现象,它在电子学、量子电子学、半导体物理等领域有着广泛的应用。
英文解释翻译
The English translation for 非欧损导电性 is non-Ohmic conductivity, which refers to a material's conductivity that does not follow Ohm's Law under the influence of electric current. It has extensive applications in the field of electronics, quantum electronics, and semiconductor physics.
英文读音
The English pronunciation for 非欧损导电性 is fei-ou-sun-dao-dian-xing.
英文的用法
The term non-Ohmic conductivity is commonly used in academic and scientific contexts related to the fields of electronics, quantum electronics, and semiconductor physics.
英文例句
- Non-Ohmic conductivity has been observed in many materials, such as semiconductors, insulators, and even metals.
- Non-Ohmic conductivity is essential to understanding the behavior of electronic devices, such as diodes and transistors.
- The study of non-Ohmic conductivity has led to new discoveries in quantum electronics and materials science.
- Non-Ohmic conductivity can be influenced by factors such as temperature, light, and magnetic fields.
英文近义词
Synonyms for non-Ohmic conductivity include non-linear conductivity and non-Ohmic behavior. These terms refer to the same phenomenon where the conductivity of a material does not follow Ohm's Law.
英文反义词
Antonyms for non-Ohmic conductivity include Ohmic conductivity or linear conductivity, which refers to a material's conductivity that follows Ohm's Law under the influence of electric current.
英文单词常用度
The term non-Ohmic conductivity is a technical term and is primarily used in academic and scientific contexts related to the fields of electronics, quantum electronics, and semiconductor physics. It is not commonly used in everyday conversation or writing.