I guess this is my explenation for what I did get from the proof
http://bildr.no/view/1035536
But actually i wanted to prove that
[tex]\sqrt[n]{c^m}\sqrt[n]{d^m}=c^{m/n}d^{m/n}[/tex] (I)
dealing with integers when working with powers and roots are much simpler because it is easier to think about a number multiplied by itself n times and the nth roth of a number because it has to be a number one gets by doing that. If one could prove (I) then one could go from whole integers for n and m on the left side to a fraction on the right side and by that one would always see that one could first find a power and then a root even (or first root then power, to switch order of theese operations is provable) though it is written as the right side of (I)
I also did manage from another proof to make this explanation (I) only a matter of showing that
[tex]a^{\frac{1}{n}}a^{\frac{1}{n}}=a^{\frac{2}{n}}[/tex] (vv)
because
http://www.viewdocsonline.com/document/biwlgx
If we use (I)
[tex]\sqrt[n]{ab}=\sqrt[n]{a}\sqrt[n]{b}[/tex]
we could get (II):
[tex]\sqrt[n]{a^m}=\sqrt[n]{aa...a}=y[/tex]
from (I)
[tex]\sqrt[n]{a^m}=\sqrt[n]{a}\sqrt[n]{a}...\sqrt[n]{a}=y[/tex]
we have m [tex]a^{\frac{1}{n}}[/tex]
and
[tex]\sqrt[n]{a}=y^{\frac{1}{m}}[/tex]
and we get (III):
[tex](\sqrt[n]{a})^m=y[/tex]
and from (II) and (III):
[tex](\sqrt[n]{a})^m=y=\sqrt[n]{a^m}[/tex]
but I can't show that (IV):
[tex](\sqrt[n]{a})^m=y=\sqrt[n]{a^m}=a^{\frac{m}{n}}[/tex]
Since I have showed that
[tex](\sqrt[n]{a})^m=\sqrt[n]{a^m}[/tex]
I only need to show that
[tex](\sqrt[n]{a})^m[/tex]
is equal too
[tex]a^{\frac{m}{n}}[/tex]
which is that
[tex](a_1)^{\frac{1}{n}}(a_2)^{\frac{1}{n}}... (a_m)^{\frac{1}{n}}[/tex]
(subscript is only for showing that it is m as)
is equal
[tex]a^{\frac{m}{n}}[/tex]
in other words I need to show
[tex](a)^{\frac{1}{n}}(a)^{\frac{1}{n}}=(a)^{\frac{2}{n}}[/tex]
to show (IV) for any whole positive integer of n and m and any real number of a
then again how to prove (vv)
