1. The activation energy for diffusing copper in nickel is 2.7 x 10-5 m²/s and theactivation energy is 256000 J/mole. Calculate the diffusivity expected at 300C.Show your work in the designated box on the following page.Answer to 1.2. The chart below contains atomic radii, crystal structure, and valence for materials that might form asolid solution with copper.a. Which material is most likely to form a substitutional solidsolution with copper?b. Which other materials could potentially form asubstitutional solid solution with copper?c. Which materials could potentially form aninterstitial solid solution with copper?Element Atomic Radius, pmAluminum143.171124.9127.846124.1124.660137.6138.7144.5CarbonChromiumCopperHydrogenIronNickelOxygenPalladiumPlatinumSilverCrystal structureFCCBCCFCCBCCFCCFCCFCCFCCb. Calculate the activation energy for diffusion of Magnesium inAluminum, Q.Valencec. Calculate the diffusivity of Magnesium in Aluminum at 400C.+3+3+2+2+2+2+2+1Answer to 2a.Answer to 2b.3. The diffusivity of Magnesium in Aluminum is 1.668 x 10¹3 m²/s at 500C and 1.352 x 10-¹5 m²/s at 300C.Show your work in the designated box on the following page.a. Calculate the Diffusion constant, DoAnswer to 2c.Answer to 3a.Answer to 3b.

Note: Since you have posted multiple questions, we will provide the solution only for the first…

1. The activation energy for diffusing copper in nickel is 2.7 x 10-5 m²/s and the activation energy is 256000 J/mole. Calculate the diffusivity expected at 300C. Show your work in the designated box on the following page. Answer to 1.

1. The activation energy for diffusing copper in nickel is 2.7 x 10-5 m²/s and the activation energy is 256000 J/mole. Calculate the diffusivity expected at 300C. Show your work in the designated box on the following page. Answer to 1.

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Question

1. The activation energy for diffusing copper in nickel is 2.7 x 10-5 m²/s and the
activation energy is 256000 J/mole. Calculate the diffusivity expected at 300C.
Show your work in the designated box on the following page.
Answer to 1.
2. The chart below contains atomic radii, crystal structure, and valence for materials that might form a
solid solution with copper.
a. Which material is most likely to form a substitutional solid
solution with copper?
b. Which other materials could potentially form a
substitutional solid solution with copper?
c. Which materials could potentially form an
interstitial solid solution with copper?
Element Atomic Radius, pm
Aluminum
143.1
71
124.9
127.8
46
124.1
124.6
60
137.6
138.7
144.5
Carbon
Chromium
Copper
Hydrogen
Iron
Nickel
Oxygen
Palladium
Platinum
Silver
Crystal structure
FCC
BCC
FCC
BCC
FCC
FCC
FCC
FCC
b. Calculate the activation energy for diffusion of Magnesium in
Aluminum, Q.
Valence
c. Calculate the diffusivity of Magnesium in Aluminum at 400C.
+3
+3
+2
+2
+2
+2
+2
+1
Answer to 2a.
Answer to 2b.
3. The diffusivity of Magnesium in Aluminum is 1.668 x 10¹3 m²/s at 500C and 1.352 x 10-¹5 m²/s at 300C.
Show your work in the designated box on the following page.
a. Calculate the Diffusion constant, Do
Answer to 2c.
Answer to 3a.
Answer to 3b.

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