Carbon is allowed to diffuse through a steel plate 13 mm thick. The concentrations of carbon at the two faces are 0.85 and 0.41 kg C/m in Fe, which are maintained constant. If the preexponential and activation energy are 6.2 x 10 m/s and 80,000 J/mol, respectively, compute the temperature (in K) at which the diffusion flux is 6.3 x 101o kg/m-s. K
Carbon is allowed to diffuse through a steel plate 13 mm thick. The concentrations of carbon at the two faces are 0.85 and 0.41 kg C/m in Fe, which are maintained constant. If the preexponential and activation energy are 6.2 x 10 m/s and 80,000 J/mol, respectively, compute the temperature (in K) at which the diffusion flux is 6.3 x 101o kg/m-s. K
Chapter21: Potentiometry
Section: Chapter Questions
Problem 21.2QAP
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![Carbon is allowed to diffuse through a steel plate 13 mm thick. The concentrations of carbon at the two faces are 0.85 and 0.41 kg
C/m in Fe, which are maintained constant. If the preexponential and activation energy are 6.2 x 10 m/s and 80,000 J/mol.
respectively, compute the temperature (in K) at which the diffusion flux is 6.3 x 10 10 kg/m2-s.
K](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fec2d387e-c86c-485e-a498-864204170be5%2F019fd355-39a3-4d66-aacf-c94008673791%2F7yxr377_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Carbon is allowed to diffuse through a steel plate 13 mm thick. The concentrations of carbon at the two faces are 0.85 and 0.41 kg
C/m in Fe, which are maintained constant. If the preexponential and activation energy are 6.2 x 10 m/s and 80,000 J/mol.
respectively, compute the temperature (in K) at which the diffusion flux is 6.3 x 10 10 kg/m2-s.
K
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