I need help with number 4 and summarizing part I and II Eceramic phase dragiPart 2 Data14.05819Mass of Urea (g):Buret Initial Volume (ml):catevPart 2 Calculation:A. Find the Keg for dissolving urea (saturated solution)Mass of urea used 4.05819Moles urea =Final Temperature of saturated solution (°C):Buret Final Volume (mL):fiical-Int24.901.Write the chemical equation for urea dissolving:CityN₂0 (s) + H₂0 (1) → (H₂N₂O) (aq)Volume in Liters =mass of urene =molar mass of crea= 0.06758 mcl2.68x10-3L2.Calculate the molarity of the urea, [Urea]eam for the saturated solution of urea in water. Youmust first find the moles of urea (molar mass 60.05 g/mol). Then you must use the volumegiven in the data (above) to find the molarity of the urea in the saturated solution. Showcalculations here.4.05819940.05 g/molVolume of water used: 3.8%3. Calculate AG solnR=8-3145 in mol-17=27.6°C = (27+273)= 300kMolarity of saturated solution (NOTE: this molarity = Keq ) =Vuq=25-216mTo do this, use:27.0I6mLAS solnR= 8.314/10-for KJ[1m² =10³2]moles of ureavolume in L30.06758 mol2.48 x 103 LAG soln = - RT In Keq1750=-ктепкинA Sol = -(8.314 3v¹ moi) (300m) (in 25.214)AG soln8.050 kJ/mol=8.050 1103J mol 1Use: AG soln=AH soln - TAS soln4. Calculate AS solnFirst, re-arrange the equation given above to solve for AS soln8.050 inmol =Then plug in the values you got for AG° and AH° to find AS°. Convert your answer to JOULES perK per mole (J/(K mol))-3[143=10²3]J/(K mol) in ve vo- ShuR:premimc(ekJ/mLESSummarizing Parts I and II#1 What were your results? (Write down the values you found for Keq, AG'soin, AH soln and AS soln)Be sure to include the units for each one.Keq =AG soln=AHO soln =AS soin =(from last week)#2 Does the sign of AH° soln Contribute to making this process spontaneous? Explain briefly.#3 Does the sign of AS soln contribute to making this process spontaneous? Explain briefly.#4 Would urea be more soluble or less soluble at a higher temperature? Why?#5a Based on the sign of AH soln, can you make any conclusions about the intermolecular forcesbetween water and urea? Are the interactions between water and urea as strong as those betweenwater and water and between urea and urea? Explain.#5b Based on the sign of AS soln, is there an increase or decrease in "order" in the system when ureadissolves? Does this make sense? Explain.7

Introduction: The sign of ∆G0 can tell us the spontaneity of a reaction. The negative sign indicates…

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Science

Chemistry

I need help with number 4 and summarizing part I and II

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter11: Properties Of Solutions

Section: Chapter Questions

Problem 6RQ: In terms of Raoults law, distinguish between an ideal liquid-liquid solution and a nonideal...

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Question

I need help with number 4 and summarizing part I and II

E
ceramic phase dragi
Part 2 Data
14.05819
Mass of Urea (g):
Buret Initial Volume (ml):
catev
Part 2 Calculation:
A. Find the Keg for dissolving urea (saturated solution)
Mass of urea used 4.05819
Moles urea =
Final Temperature of saturated solution (°C):
Buret Final Volume (mL):
fiical-Int
24.90
1.Write the chemical equation for urea dissolving:
CityN₂0 (s) + H₂0 (1) → (H₂N₂O) (aq)
Volume in Liters =
mass of urene =
molar mass of crea
= 0.06758 mcl
2.68x10-3L
2.Calculate the molarity of the urea, [Urea]eam for the saturated solution of urea in water. You
must first find the moles of urea (molar mass 60.05 g/mol). Then you must use the volume
given in the data (above) to find the molarity of the urea in the saturated solution. Show
calculations here.
4.058199
40.05 g/mol
Volume of water used: 3.8%
3. Calculate AG soln
R=8-3145 in mol-1
7=27.6°C = (27+273)
= 300k
Molarity of saturated solution (NOTE: this molarity = Keq ) =
Vuq=25-216m
To do this, use:
27.0
I
6
mL
AS soln
R= 8.314/10-
for KJ
[1m² =10³2]
moles of urea
volume in L
30.06758 mol
2.48 x 103 L
AG soln = - RT In Keq
1750=-ктепкин
A Sol = -(8.314 3v¹ moi) (300m) (in 25.214)
AG soln
8.050 kJ/mol
=
8.050 1103J mol 1
Use: AG soln=AH soln - TAS soln
4. Calculate AS soln
First, re-arrange the equation given above to solve for AS soln
8.050 inmol =
Then plug in the values you got for AG° and AH° to find AS°. Convert your answer to JOULES per
K per mole (J/(K mol))
-3
[143=10²3]
J/(K mol)

in v
e vo
- Shu
R:
pre
mi
mc
(e
kJ/m
LES
Summarizing Parts I and II
#1 What were your results? (Write down the values you found for Keq, AG'soin, AH soln and AS soln)
Be sure to include the units for each one.
Keq =
AG soln=
AHO soln =
AS soin =
(from last week)
#2 Does the sign of AH° soln Contribute to making this process spontaneous? Explain briefly.
#3 Does the sign of AS soln contribute to making this process spontaneous? Explain briefly.
#4 Would urea be more soluble or less soluble at a higher temperature? Why?
#5a Based on the sign of AH soln, can you make any conclusions about the intermolecular forces
between water and urea? Are the interactions between water and urea as strong as those between
water and water and between urea and urea? Explain.
#5b Based on the sign of AS soln, is there an increase or decrease in "order" in the system when urea
dissolves? Does this make sense? Explain.
7

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