I am suppose to differentiate $x^3 -4x +6,$ but I can not get the correct answer. I get $\frac{\mathrm{d} }{\mathrm{d} x}(x^3) = 3x^2$ using the power rule and then $\frac{\mathrm{d} }{\mathrm{d} x}(4x) = 4$ and $\frac{\mathrm{d} }{\mathrm{d} x}(6) = 1$. This is not correct but I do not know why.
Differentiating the polynomial $x^3 - 4x +6$
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0Some things I tried to emphasize when I was teaching Calculus: (1) In high-school Algebra, you don't make$a$distinction between letters and explicit numbers: $a$ behaves the same as $2$. But in Calculus, we worry very much about whether a letter represents a constant or a variable, because they’re treated entirely differently in Calculus. (2) Don’t *ever* put an equals sign between two things that are not equal. – 2012-04-23
3 Answers
Everything is correct, except that the derivative of a constant (like 6) is always 0.
You can still see this fact from the power rule. Write 6 as $6x^0$. The power rule says that the derivative is $6 \cdot 0 x^{-1}$, which is 0.
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4Also don't forget to get a feeling for thiss. The derivative of a constant is zero because no matter how we change$x$(which is represented by $dx$ in a not so trivial way) the resulting change in the constant is ... zero because it is a constant so it doesn't change. Hence you don't need to memorize it. You need to see it and get used to it. – 2011-09-17
You nearly got everything correct, only the derivative of the constant is wrong. However, you should watch out with your notation, you don't write $x^3 = 3x^2$, instead you write either $\frac{d}{dx}x^3 = 3x^2$ or $(x^3)^{'} = 3x^2$
Also remember that when you differentiate $x^3-4x+6$ you first have to say that you can derive $x^3$, $4x$ and $6$ separately, since the derivate of a sum equals the sum of the derivate.
Thus $\frac{d}{dx}(x^3-4x+6) = 3x^2 -4$.
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0Yep, typo. Thanks for pointing it out. – 2011-09-17
Use the rule of the sum of functions, $\frac d{dx}(x^3-4x+6)=\frac d{dx}(x^4)-\frac d{dx}(4x)+\frac d{dx}(6)=\underline{3x^2-4}\\\text{NOT }\;\; 3x^2-4 \;\;\underline{+ 6} $
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0@TheChaz Anytime :) – 2012-04-23