这个地方根本没有电,没有复印机,所有你认为在这里理所当然的东西,都将不再存在。
The place has no electricity at all, no photocopiers, all the things that you just take for granted here, they just won't be there any more.
主平方根函数是使用非正实轴作为分支切割定义的。
The principal square root function is defined using the nonpositive real axis as a branch cut.
这个让你知道怎样寻找平方根。
100的平方根永远等于10。
2π乘以R/d的平方根,得到1。
You take two pi times the square root 85 of R over d and you find 1.85.
一个数的平方根会小于0么?
请考虑清单1所示的平方根函数的原型。
Consider the prototype for a simple square root function shown in Listing 1.
我大概能理解它,即使平方根很难看到。
I can sort of understand that although the square root is hard to see.
或者,它可以表现的像个开平方根的机器。
你应该用乘积的平方根。
它不会帮你算出平方根。
标准差是方差的平方根。
过滤目标数的所有因子,从1到其平方根。
Filter all of the target number's factors from 1 to the square root of the number.
2的平方根,乘以15。
另外,计算平方根。
所以你看联系总是,在于2平方根。
So you see the connection is always through this square root of two.
那就是你的均方根。
如果有人请求负数的平方根,也将发送错误响应。
You also send a fault response if someone requests the square root of a negative number.
取平方根,乘以。
取它的平方根。
他们仍坚持认为西方根本不在乎谁是叛军。
Those still maintaining that the west does not know "who the rebels are" have simply not been paying attention.
但是系统能量的变化量大约,会是N的平方根乘以ε
But the system variance is going to be on the order of the square root of N times epsilon.
假设我想在一大段代码中,计算很多次平方根。
Suppose I want to compute square roots a lot of places in a big chunk of code.
介电常量的二次及三次方根与密度成线性关系。
The square root and the cubic root of the dielectric constants are linearly related to the volume ratios.
像那种地方根本不可能藏身,可它偏偏就躲在那里。
Like there was no place he could've been hiding, yet that's where he was.
,这是我们写的计算平方根的代码,计算完全全平方根的。
It's the piece of code we wrote for computing square roots, square roots of actually perfect squares.
,这是我们写的计算平方根的代码,计算完全全平方根的。
It's the piece of code we wrote for computing square roots, square roots of actually perfect squares.
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