Joule-heat power density 热功率密度
Joule heat zone melting 焦耳热区域熔炼
the Joule heat 焦尔热
internal joule heat 焦耳内热源
internal joule heat generation 焦耳内热源
Joule e heat 焦耳热
joule ' s heat 焦耳热
joule s heat 焦耳热
plot proves good dissipation on Joule heat and electrode performance.
曲线实验可以评估焦耳热消散程度以及电极性能。
参考来源 - 一种新型的“重力自平衡——自由流电泳仪”的研制及其应用研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The effect of Joule heat and mineral matter on conductivity of coal has been studied.
主要讨论了焦耳热效应和矿物质对煤导电性质的影响。
In current through a conductor joule heat generated by the electric furnace for the heat source.
以电流通过导体所产生的焦耳热为热源的电炉。
Joule heat and electromagnetic force coupling physical effect are the main mechanism of these phenomena.
焦耳热和电磁力偶合物理效应是造成这些现象的主要机理。
But it's a good story, Joule decided that there must be a direct relationship between work and heat.
所以说,这只是一个不错的故事而已,焦耳认为功和热之间,一定具有某种直接的联系。
The relationship between heat and work was initially proposed in the 1940's by Joule.
热量和功的关系首先是,由焦耳在1940年提出的。
Real refrigerators actually work with liquids that go into gases so use the latent heat of the liquid, so it doesn't really work like the Joule-Thomson expansion. So this is real.
液体变成气体来工作,以运用液体的潜热,所以这不是,真正像焦耳-汤姆逊膨胀一样工作,这是真实的气体,不像焦耳。
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