<p>does anyone know what the final is like?
anyone know what kind of questions there will be?</p>
<p>haha i guess no one knows?</p>
<p>I think it was like one page front and back
very basic questions that you could find from the powerpoints or whatever material that's available on the website that were fill in the blank or multiple choice
and I remember one of the questions was "what was the topic of last week's lecture" which I got wrong :(</p>
<p>Hey silly, did you take notes for the last lecture?</p>
<p>hahah i didnt go for the last lecture....</p>
<p>The one about the guy that made pipes? He didn't really mention ChE a lot.</p>
<p>Basics of ChemE</p>
<p>Mass Balance
[ Accumulation of mass in control volume] = [ Mass entering control volume through each face] - [ Mass leaving control through each face ] + [ Generation of mass in control volume]</p>
<p>You can apply heat and momentum balance in terms of mass (substitute mass for heat/momentum)</p>
<p>Batch: Non-flow, you add in reactants and let them react for a certain time. Lowest in production per year. Usually biotech stuff.</p>
<p>Flow Reactors: Conversion depends on residence time, longer residence time = high conversion
1) Continous Stirred-Tank Reactor (CSTR): Like batch except continuous flow in and out. Exiting concentration is the same as inside of reactor.
2) Plug Flow Reactor (PFR) / Packed Bed Reactor (PBR): You feed the reactor a species, conversion happens fast and is like a dirac delta function.</p>
<p>Hicks - Atmospheric plasma (his company is SURFX the one Misuk sent an email out saying internships)
Monoboquette - Does DNA stuff
Tang - Protein synthesis
Chang - Electrochemistry deposition/Silicon stuff
Senkan - Reactor design stuff (not sure if he lectured)</p>
<ul>
<li>TB54</li>
</ul>
<p>Where's that asshat Liao on that list?</p>