Improve Your Understanding of Viscosity with This Helpful Homework Guide

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SUMMARY

This discussion focuses on solving a homework problem related to viscosity, specifically addressing fluid velocity profiles and shear stress calculations. The solution involves understanding that there is no slip at the surfaces, leading to a linear variation of fluid velocity between two sections above and below a plate. For part A, the velocity profile can be determined using the given dimensions and velocities, while part B requires applying the shear stress equation, τ = -μ ∂u/∂y, to calculate the stress at the plate surfaces and subsequently the force exerted on the plate.

PREREQUISITES
  • Understanding of fluid mechanics principles
  • Familiarity with viscosity and shear stress concepts
  • Knowledge of fluid velocity profiles
  • Ability to apply mathematical equations in physics
NEXT STEPS
  • Study the concept of fluid velocity profiles in laminar flow
  • Learn about the derivation and application of the shear stress equation in fluid dynamics
  • Explore the relationship between viscosity and shear rate in Newtonian fluids
  • Investigate practical applications of viscosity in engineering scenarios
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Students studying fluid mechanics, physics educators, and anyone seeking to deepen their understanding of viscosity and its applications in real-world scenarios.

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Homework Statement



Help with the viscosity.
The problem is in the attachment.
My prof does not yet teach the lesson but we have to answer the problem.

Homework Equations





The Attempt at a Solution

 

Attachments

  • problem.jpg
    problem.jpg
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please help me
 


I think you are just thinking too hard to be honest. You know that there is no slip on the surfaces. Therefore, you know the fluid velocity at each of the surfaces and you know that it just varies linearly from one surface to the next.

It should be straightforward from that point to answer part A since you know all the dimensions on the problem and the necessary velocities. The fluid is divided into two sections (above and below the plate) and you have enough information to get the velocity profile in both sections with minimal work. You can use those profiles to easily solve for the heights where the fluid velocity is zero (there are two such points)

For part B, you just use the equation for shear stress:
\tau = -\mu \frac{\partial u}{\partial y}
That will give you a stress (you need one for the top and bottom of the plate) that you can multiply by the plate area to get force.
 

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