Total internal energy change is equals to -44.83kJ
Q=-73.2kJ (negative sign indicates that heat was released by the system),
P= 50.0atm
ΔU= Q + W, FIRST LAW OF THERMODYNAMICS..........(1)
ΔV= Final volume - initial volume= 2.00 litre - 7.60litre= -5.60litre
work done by the system (w)= -PΔV
w= -(50.0×(-5.60)) atm×litre= 280atm litre
1 atm litre= 101.325J
w= 280 ×101.325 J= 28,371J
1kJ=1000J,
w=28.37KJ,
so putting in the values in equation (1)...
energy change(ΔU) = -73.2 kJ + 28.37 kJ
= - 44.83 kJ
<span>Answer:
The total anion concentration = 6.0 + 2x12.0 + 3.0 = 33.0mEq/L</span>
The current divides according to the resistance; more current in the lower resistance, less in the higher resistance. This is called “parallel branches” or paths. The voltage is the same for both (all) branches.
The fission reaction released the most energy per amu when compared to the fusion reaction.
<h3>
Energy released per amu for Fusion</h3>
The amount of energy released per amu for fusion is given as 0.36 J/amu.
<h3>
Energy released per amu for Fission</h3>
The amount of energy released per amu for fission is given as 0.85106383 J/amu.
From the different energy released per amu, it is obvious that 0.85106383 J/amu is greater than 0.36 J/amu.
Thus, the fission reaction released the most energy per amu when compared to the fusion reaction.
Learn more about fusion and fission here: brainly.com/question/11290822
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