can you elaborate on that? full working out?
hmm first of all mind my stupidity. I have no idea what you did there...you did that without logs?^x = 20 \implies (\frac {1}{2})^x = 2^{-x} = \frac {20}{5} = 4 = 2^2 \implies -x = 2 \implies x = -2)
omg thank you very much!! also is it still possible to do it with taking logs to both sides from the beginning instead of dividing 5 from both sides?photastic's method:
^x&=20 \\(\frac{1}{2})^x&=4 \\\textup{Taking the logarithms of both sides} \\\log{\left [(\frac{1}{2})^x \right ]}&=\log{\left [2^2 \right ]} \\\textup{Using the rule }log_a{\left [m^p \right ]}&=p\log_a{m} \\x\log{\left [\frac{1}{2} \right ]}&=2\log{2} \\x&=\frac{2\log2}{\log{\left [2^{-1} \right ]}} \\&=\frac{2\log2}{-\log2} \\&=\frac{2}{-1} \\&=-2\end{align*})
I did a similar thing but instead of keeping x with 1/2 i put it outside of the bracket.. which kinda stuffed me up and also why does this still work with a base of 10 as per log 5? because the question asks us to make the base 2
And it's the same from there.
other questions were pretty easy but they put this in the last question...so this is like one of a kind in the book. How would when to use the base as the question asks and when not to?Yep that's becauseis not the same as
.
As far as I am aware, the base doesn't matter with questions like these. I think their intention with asking you to use a base of 2 was to use the identity
So any question from question 3 can be done without worrying about the base?
Just quickly can you please do this method on any other question in q3 so I can have another example to look at. Also thank you very much for taking your time to help me
Yes. The base does not matter because you are manipulating both sides of the equation. Just make sure that you use the same base of log for both sides and you will be fine.
No worries, I'm glad to be of assistance. Here is 3b:Just quickly can you please do this method on any other question in q3 so I can have another example to look at. Also thank you very much for taking your time to help me
You had to put the base value here as 2 right?No worries, I'm glad to be of assistance. Here is 3b:
No, all the log laws he used there work for any log base.