Answer:
ΔU = 88.8 KJ/mol
Explanation:
to Calculate ΔU we are going to use this formula:
ΔU = q + w
when
ΔU is change in internal energy
and q is the heat added to the system
and W is the work done by the system
at constant pressure :
we can get w from this formula:
w= -PΔV
and when p is the pressure = 43.6 bar we need to convert bar to N/m^2
1 N/m^2 = 1 * 10^-5 bar
So 43.6 bar = 4360000 N/m^2
now ΔV is the change in volume = Vfinal - Vinitial
ΔV = 2L - 5 L = - 3 L
but we need to convert this unit to m^3
1 litre = 0.001 cubic meters
so ΔV = 3 L * 0.001 = - 0.003 m^3
by substitution in work formula:
w = - 4360000 N/m^2 *- 0.003 m^3
= 13080 N m
N m unit = Joule and to convert it to kJ
1 Joule = 0.001 KJ
So W = 13080 * 0.001
= 13.08 KJ
now we need to know q , at constant pressure q = ΔH ° = 75 KJ/mol
So by substitution in ΔU formula:
ΔU = 75 KJ/mol +13.08 KJ
= 88.8 KJ/mol
