Respuesta :
Answer : q = 6020 J, w = -6020 J, Δe = 0
Solution : Given,
Molar heat of fusion of ice = 6020 J/mole
Number of moles = 1 mole
Pressure = 1 atm
Molar heat of fusion : It is defined as the amount of energy required to melt 1 mole of a substance at its melting point. There is no temperature change.
The relation between heat and molar heat of fusion is,
[tex]q=\Delta H_{fusion}(\frac{Mass}{\text{ Molar mass}})[/tex] (in terms of mass)
or, [tex]q=\Delta H_{fusion}\times Moles[/tex] (in terms of moles)
Now we have to calculate the value of q.
[tex]q=6020J/mole\times 1Mole=6020J[/tex]
When temperature is constant then the system behaves isothermally and Δe is a temperature dependent variable.
So, the value of [tex]\Delta e=0[/tex]
Now we have to calculate the value of w.
Formula used : [tex]\Delta e=q+w[/tex]
where, q is heat required, w is work done and [tex]\Delta e[/tex] is internal energy.
Now put all the given values in above formula, we get
[tex]0=6020J+w[/tex]
w = -6020 J
Therefore, q = 6020 J, w = -6020 J, Δe = 0
