• But we've defined the enthalpy of those elements in their stable state at room temperature and pressure as zero, right?

    但我们已经定义了这些,元素处于它们室温和常压下,最稳定的状态时的焓为零,对吧?

    麻省理工公开课 - 热力学与动力学课程节选

  • Hydrogen gas it's in its most stable state, right at room temperature and pressure.

    和常压下氢气是氢元素,最稳定的状态,这个小“0“

    麻省理工公开课 - 热力学与动力学课程节选

  • It then made Massachusetts the most stable state or essentially the most stable state in the country and it was widely-admired.

    那时,它使马萨诸塞州成为了美国最稳定的州,或者说本质上最稳定的州,并广受好评与赞赏。

    耶鲁公开课 - 金融市场课程节选

  • So, what we know is happening is that were having transitions from some excited states to a more relaxed lower, more stable state in the hydrogen atom.

    我们知道,这里所发生的是,氢原子从激发态到更低更稳定的态的跃迁,而我们用眼睛可以探测到的。

    麻省理工公开课 - 化学原理课程节选

  • Delta H of formation means the enthalpy of this compound minus the enthalpy of its constituent elements in their most stable state at room temperature and pressure.

    生成焓就是这种组分,的焓减去它的所有组成元素,在室温和常压下处于,其最稳定的状态时的焓。

    麻省理工公开课 - 热力学与动力学课程节选

  • So, if we want to go from that stable state to that less stable state, we need to put in a certain amount of energy to our system, that difference between the free electron and the electron bound to the metal.

    所以,如果我们想使电子,从稳态到达不够稳定的状态,我们需要引入一定数量的,能量到系统中,即自由电子和束缚于金属的,电子的能量差。

    麻省理工公开课 - 化学原理课程节选

  • Iron as an element is a solid. That's it's most stable state at room temperature and pressure, right, and so on. And then we can figure out heats of formation.

    铁单质是固态,这是他在室温和常压下,最稳定的状态,然后我们,可以算出生成热,现在这个。

    麻省理工公开课 - 热力学与动力学课程节选

  • We knew from Friday, when we talked about energy, that ground state was that n equals 1 value, that was the lowest energy, that was the most stable place for the electron.

    我们上周五知道了,在讨论能量的时候,基态指,n等于1的态,它能量最低,是,最稳定的态。

    麻省理工公开课 - 化学原理课程节选

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