Consider the following partial oxidation of ethylene to produce ethylene oxide: o2 (g) > c2h4o (g) c2h4 (g) + both ethylene and oxygen are fed to a reactor at 25 °c and 100 bar. at these conditions, ethylene and oxygen do not behave as ideal gases. determine the relative volumetric flow rates of these two compressed gases (in cm per second of ethylene/cm per second of oxygen) into the reactor required to supply a stoichiometric feed

Calculate the ratio of h+ ions to oh– ions at a ph = 7. find the concentration of h+ ions to oh– ions listed in table b of your student guide. then divide the h+ concentration by the oh– concentration. record this calculated ratio in table a of your student guide. compare your approximated and calculated ratios of h+ ions to oh– ions at a ph = 7. are they the same? why or why not? record your comparison in table a. what is the concentration of h+ ions at a ph = 7? mol/l what is the concentration of oh– ions at a ph = 7? mol/l what is the ratio of h+ ions to oh– ions at a ph = 7? : 1

Using the thermodynamic information in the aleks data tab, calculate the standard reaction free energy of the following chemical reaction: →+p4o10s6h2ol4h3po4s round your answer to zero decimal places.

Using the first volume and temperature reading on the table as v1 and t1, solve for the unknown values in the table below. remember to use the rules of significant figures when entering your numeric response.