非常好,这是一元微积分中,你们至少应该记住的。
Very good. OK, that's at least one thing you should remember from single variable calculus.
如果说你要知道,关于一元微积分中所有的求导法则。
Let's say that you want to understand actually all these rules about taking derivatives in single variable calculus.
我指的是,在这种形式下,它和一元微积分的表述是一样的。
I mean, in this form, actually it's the same statement as in single variable calculus.
相当于在一元微积分中,取一个函数的不定积分,仅仅需要在结果后加一个常数。
It is the same thing as, in one variable calculus, when you take the anti-derivative of a function it is only defined up to adding the constant.
作为引子,你们可能已经知道了,一元微积分里面的一个小把戏,也就是求隐函数微分法。
And, just to motivate that, let me remind you about one trick that you probably know from single variable calculus, namely implicit differentiation.
扼要论述了化归的原则及意义,从理论和实例分析讨论了一元微积分中若干典型问题化归的基本方法。
Applying theory to specific cases to analyse ideogical method of transformation of several problems, briefly problems the principle and significance of transformation method in monadic calculus.
一元函数微积分学是高等数学的基础,直接影响学生数学素养的培养。
As the base of high mathematics, differential and integral calculus for function of one variable has the direct influence on the training of students mathematics attainment.
一元函数微积分学是高等数学的基础,直接影响学生数学素养的培养。
As the base of high mathematics, differential and integral calculus for function of one variable has the direct influence on the training of students mathematics attainment.
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