The decrease in volume requires the surroundings do 7.6 J of work on the gases

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The discussion focuses on calculating the change in internal energy of gases resulting from a chemical reaction. The reaction of 50 mL of H2 with 50 mL of C2H4 produces 50 mL of C2H6 at 1.5 atm, releasing 3.1 x 10^2 J of heat while requiring the surroundings to do 7.6 J of work on the gases. The change in internal energy is determined using the formula that combines heat energy and work done. Participants clarify the application of the work-energy theorem and confirm the correct calculation of internal energy as -302.4 J. The conversation emphasizes understanding the signs of work in energy calculations.
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1. Reacting 50 mL of H2(g) with 50 mL of C2H4(g) produces 50 mL of C2H6(g) at 1.5 atm. If the reaction produces 3.1 x 10^2 J of heat and the decrease in volume requires the surroundings do 7.6 J of work on the gases, what is the change in internal energy of the gases?




2. Change in Internal Energy = Q(heat energy) + W(work)
Work = - P x (change in volume)



3. I know how to apply these equations but have no idea about the " 7.6 J of work" part.
 
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Thanks tiny tim :) This is what I got:

(-310 J) + (7.6J)
= 302.4 J = -3 x 10^2 J
 
looks right :smile:
 
sweet, thanks
 
Thread 'Confusion regarding a chemical kinetics problem'

Thread 'Confusion regarding a chemical kinetics problem'

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