Aluminum tubing has a thin surface layer of aluminum oxide. What shape meniscus would you expect to find for water and for mercury inside aluminum tubing? Explain your answers in terms of intermolecular forces. Fill in the gap and select the correct option within the parentheses An oxide surface has the ability to form _________ bonds to water, so the meniscus of water in aluminum tubing will be (concave, convex) . The (metallic, nonmetallic) nature of the oxide layer means that there (will, will not) be strong liquid-surface forces for mercury inside aluminum tubing,
Aluminum tubing has a thin surface layer of aluminum oxide. What shape meniscus would you expect to find for water and for mercury inside aluminum tubing? Explain your answers in terms of intermolecular forces. Fill in the gap and select the correct option within the parentheses An oxide surface has the ability to form _________ bonds to water, so the meniscus of water in aluminum tubing will be (concave, convex) . The (metallic, nonmetallic) nature of the oxide layer means that there (will, will not) be strong liquid-surface forces for mercury inside aluminum tubing,
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
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Aluminum tubing has a thin surface layer of aluminum oxide. What shape meniscus would you expect to find for water and for mercury inside aluminum tubing? Explain your answers in terms of intermolecular forces.
Fill in the gap and select the correct option within the parentheses
An oxide surface has the ability to form _________ bonds to water, so the meniscus of water in aluminum tubing will be (concave, convex) . The (metallic, nonmetallic) nature of the oxide layer means that there (will, will not) be strong liquid-surface forces for mercury inside aluminum tubing, so the meniscus will be (concave, convex).
Transcribed Image Text:Aluminum tubing has a thin surface layer of aluminum oxide. What shape meniscus would you expect to find for water and for mercury
inside aluminum tubing? Explain your answers in terms of intermolecular forces.
An oxide surface has the ability to form
bonds to water, so the meniscus of water in aluminum tubing will be
v. The
v nature of the oxide layer means that there
v be strong liquid-surface forces for
mercury inside aluminum tubing, so the meniscus will be
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