1·There was a huge initial force—five times larger than the steady state force.
有一种很强大的初动力——比恒定状态时的力要大五倍。
2·The apparent steady state kinetics of the aminoacylation reaction catalyzed by LeuRS at the participation of some RE 3+ was studied.
对部分稀土离子参与下 LeuRS 催化的的氨酰化反应表观稳态动力学性质进行了研究。
3·A and this is a star steady state.
星稳态,a, star, steady, state,这是A星稳态。
4·So we plug in A steady state here.
那么我们代入A稳态。
5·What is steady state?
什么是稳定状态?
6·So this is steady state approximation.
那么这是稳态近似。
7·This is going to be steady state here.
这会是稳态。
8·We solve for a steady state algebraically.
我们用代数方法解决A稳态。
9·You solve for the steady state concentration.
你解决了稳态浓度。
10·For most of the time, we live in a very steady state.
大多数时候,我们生活在一个非常稳定的状态。
1·The apparent steady state kinetics of the aminoacylation reaction catalyzed by LeuRS at the participation of some RE 3+ was studied.
对部分稀土离子参与下 LeuRS 催化的的氨酰化反应表观稳态动力学性质进行了研究。
2·So this is steady state approximation.
那么这是稳态近似。
3·We solve for a steady state algebraically.
我们用代数方法解决A稳态。
4·We're going to revisit this approximation here when we get to more complicated mechanisms, it's going to become this steady state approximation.
我们会再来看这个近似,当我们学到更复杂的机理后,它会成为这个稳态的近似。
5·Which is the steady state approximation, where one rate, the rate to go into the intermediate is very slow, or the rate to get out of the intermediate is very fast.
它是稳态近似,其中一个速率,生成中间产物的速率十分缓慢,或用掉中间产物的速率十分快。