You can buy past exams at the college board for 20-30 bucks per exam. It comes with a nice booklet and they mail it very fast (got my after 2-3 days of ordering, considering I live in Canada, it is very fast mailing)
What brand of energy drink? I tried Guru, didn't work, then tried Monster and I was peeing every 10 minutes for the next 1 hr and half. (Not exaggerating, it was a 791 ml can)
Can't stand the taste of coffee. It takes so bitter, how can you guys take it without sugar and milk?
A little can of pop contains almost as much as caffeine as a cup of coffee. (Well is a bit less, but I top it off with 1 or 2 caffeine pills) so everytime I am having a pop, I am taking about...
You know, there is something called an exit? If you don't like what you are listening to, you can always leave. No need to whine about it. You get what you paid for. No one chained you up and force you listen to it.
Silly question but my mom cooked me some chicken. I stored it in the freezer compartment and forget about it. It is frozen but is like 2 months old. Can I still eat it if I heat it up using microwave/pot or soemthing? Thanks.
In titrating HA, the weak acid with a strong base, why does the OH- ions from the strong base react with the HA atom (and neutralize it) rather than say react with the H3O+ to form complete neutralization? Just curious. Thanks.
In all the stuff I read, enhancer only binds activators while silencer sequences on DNA binds repressors. However, in my biology's slides.. my professor is saying that repressors can bind to both silencers and enhancers.. can anyone confirm this? This is very fishy as I have never read this...
I don't really quite understand these as these pages you linked me to are quite advanced physics.. I am only taking introductory E&M (no calc) so these concepts are quite beyond me but thanks for trying!
I am confused about the right formula for this. Is it
R_{n} \leq T_{n} \leq \int_{n+1}^{\infty} or R_{n} \leq T_{n} \leq\int_{n}^{\infty} ?
Say for example, I want to estimate the error in using the sum of the first 10 terms to approximate the sum of the series.
The textbook seems to use...
Ok, I don't know what they did in example 6. They had just one sentence about the error and it is very unclear. What I am curious though, and which is the whole point of my question to begin with, is what I am doing correct? Thanks.
Homework Statement
Estimate \sum^{\infty}_{n=1}n^{-3/2} to within 0.01
Homework Equations
\int^{\infty}_{n+1}f(x)dx\leq R_{n} \leq \int^{\infty}_{n}f(x)dx
The Attempt at a Solution
So my strategy was using the above formula to find Rn, where Rn = 0.01 or 1/10^2. Then that will give me the...