HW 8.25

isochoric/isometric:
isothermal:
isobaric:

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504594108
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Joined: Fri Sep 25, 2015 3:00 am

HW 8.25

Postby 504594108 » Sat Jan 09, 2016 2:44 pm

I do not understand how the Solutions Manuel solves this problem because it's asking for the internal energy but the Solutions Manuel uses heat capacity and heat formulas. Can someone please explain how it was solved?

Michelle Pham 1G
Posts: 21
Joined: Fri Sep 25, 2015 3:00 am

Re: HW 8.25

Postby Michelle Pham 1G » Sat Jan 09, 2016 7:38 pm

Heat capacity is linked to internal energy because heat capacity is equal to heat supplied/temperature change, which in equation form is C= q/delta T

Change in internal energy (delta U) is equal to q (heat) + w (work)
Because the problem specifies that it is a constant-volume calorimeter, w= 0 in this case. That means that the change in internal energy (delta U) is equal to q (heat).

To solve this problem, you must first find the 1. heat capacity of the calorimeter (Ccal), and then use that information to find 2. the energy change (q). This will then give you change in internal energy.

Ajith Raja 2L
Posts: 24
Joined: Wed Nov 18, 2015 3:00 am

Re: HW 8.25

Postby Ajith Raja 2L » Mon Jan 18, 2016 4:41 pm

On the solutions manual, the change in temperature that is used is given in Kelvin. For example, they use 7.32K. However, in the problem, the temperature is given in Celsius. Don't we have to convert Celsius to Kelvin before we continue with the problem? If so, why is it not done in the solutions manual? Is this a typo?...

Michelle Pham 1G
Posts: 21
Joined: Fri Sep 25, 2015 3:00 am

Re: HW 8.25

Postby Michelle Pham 1G » Tue Jan 19, 2016 9:21 pm

It actually does not matter whether Celsius or K is used because a change of 1 degree Celsius is the same as a change of 1 K. This is because K= C + 273. The numbers differ by 273, but if there is any change in C, the same change will occur in K.

Aishwarya Raich
Posts: 15
Joined: Fri Sep 25, 2015 3:00 am

Re: HW 8.25

Postby Aishwarya Raich » Sun Jan 24, 2016 9:09 pm

Why is this equation not factoring in mass? The solution manual uses the equation C= q/ delta T, however the equation that we are provided with is originally q=nc(delta T). Aren't the number of moles an important factor to consider in these types of problems?


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