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Engineering Mechanical Engineering Thermodynamics: An Engineering Approach

Conside the function z ( x, y ), its partial derivatives ( ∂z/∂x ) y and ( ∂z/∂y ) x , and the total derivative dz/dx . (a) How do the magnitudes ( ∂x ) y and dx compare? (b) How do the magnitudes ( ∂z ) y and dz compare? (c) Is there any relation among dz , ( ∂z ) x , and ( ∂z ) y ?

Conside the function z ( x, y ), its partial derivatives ( ∂z/∂x ) y and ( ∂z/∂y ) x , and the total derivative dz/dx . (a) How do the magnitudes ( ∂x ) y and dx compare? (b) How do the magnitudes ( ∂z ) y and dz compare? (c) Is there any relation among dz , ( ∂z ) x , and ( ∂z ) y ?

Solution Summary: The author analyzes the function z(x,y), its partial derivatives, and its total derivative.

Thermodynamics: An Engineering Approach

Thermodynamics: An Engineering Approach

9th Edition

ISBN: 9781259822674

Author: Yunus A. Cengel Dr., Michael A. Boles

Publisher: McGraw-Hill Education

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Chapter 12.6, Problem 7P

Conside the function z(x, y), its partial derivatives (∂z/∂x)y and (∂z/∂y)x, and the total derivative dz/dx.

(a) How do the magnitudes (∂x)y and dx compare?
(b) How do the magnitudes (∂z)y and dz compare?
(c) Is there any relation among dz, (∂z)x, and (∂z)y?

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Chapter 12.6, Problem 6P

Chapter 12.6, Problem 8P

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Chapter 12 Solutions

Thermodynamics: An Engineering Approach

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