00:01
So the kp value of the dissociation process of o2 to 2o at specified temperature is to be determined using the hr data and the kp value.
00:21
So here the assumption that we have to give is the reactant and the product are ideal gases.
00:31
When we analyze this question, the hg and the kg and the.
00:39
Kp data are related to each other.
00:44
Now they are related in this form.
00:49
Kp2 upon kp1 is equals 2 is hr sorry, hr bar upon ru upon 1t1 minus 1t2 or ln kp2 minus lnkpp1 is equals to hr bar upon ru upon 1t1 t1 minus 1 upon g2 now the hr h bar r of the specified reaction 2 ,200 kelvin is the amount of energy released has 1 kilo hole of oxygen dissociates in a steady flow chamber at a temperature of 2 ,200 kelvin and that can be determined by hr bar is equal to sigma and p h a dot bar plus h bar minus h bar not p minus and r this for reactants same same thing h -bore minus h dash bar up.
02:40
Now assuming that o2 and o to ideal gases, we have h is equals to h of t.
02:52
Now from the tables we get, so if we have substance here, hf bar, h at temperature, 2 ,200, kelt, 11, 0 and 02, we have values to be 249 ,190, 06852, 8682, 467 to 8, 75, 8, 75, 484...