Solving the Speed of Blood Flow in a Magnetic Field

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Homework Help Overview

The problem involves calculating the speed of blood flow in an artery subjected to a magnetic field, with specific parameters provided such as the diameter of the artery and the induced e.m.f. The subject area relates to electromagnetism and fluid dynamics.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the application of Faraday's Law and the relationship between induced e.m.f. and the speed of blood flow. Questions arise regarding the interpretation of variables and the setup of the problem, particularly the meaning of the area and dimensions involved.

Discussion Status

Participants are actively engaging with the problem, with some offering clarifications and alternative perspectives on the equations involved. There is a recognition of confusion regarding the relationship between area and time in the context of the problem, and some participants are beginning to understand the implications of the magnetic field's orientation relative to blood flow.

Contextual Notes

There is an ongoing discussion about the definitions and assumptions related to the variables used in the equations, particularly concerning the dimensions of the artery and the nature of the magnetic field. Some participants express uncertainty about the dependencies of certain variables.

Steve F
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1. The question...

"Blood is a conducting fluid. When flowing through an artery of diameter 10mm which is subject to a constant magnetic field of strength 60mT, an e.m.f. of 0.3mV appears across the width of the artery. Calculate the speed of the blood"

3. The solution...

The solution given is
E = BA/t (I get that bit)
and
E = BLv (don't get this bit)
where v is speed of the blood and L is??

It continues...
v = E/BL = 0.0003/(0.060 x 0.01) = 0.5m/s

So it appears L is apparently 0.01m (10mm) which is the same as the diameter of the artery.

Any help greatly appreciated.
 
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Better start with ##|E|=\frac{d\Phi}{dt}=B\frac{dA}{dt}## for Faraday's Law in a steady field. Consider a rectangle of blood of height ##d## (diameter of artery) and length ##dx## ...
 
kuruman said:
Better start with ##|E|=\frac{d\Phi}{dt}=B\frac{dA}{dt}## for Faraday's Law in a steady field. Consider a rectangle of blood of height ##d## (diameter of artery) and length ##dx## ...

Thanks for the reply, but i still don't follow how he gets E = BLv
 
A rectangle of height ##L## (I renamed the variable) and length ##dx## has area ##dA=Ldx##. What is ##\frac{dA}{dt}~?## Note: ##L## is the diameter of the artery.
 
kuruman said:
A rectangle of height ##L## (I renamed the variable) and length ##dx## has area ##dA=Ldx##. What is ##\frac{dA}{dt}~?## Note: ##L## is the diameter of the artery.

But A isn't dependent on t, so dA/dt doesn't make sense. Sorry if I'm being stupid!
 
Look at the picture. It shows a piece of the artery and an element of blood of length Δx flowing with speed v left to right. Imagine the magnetic field in a direction perpendicular to the screen. The flux through that element of blood is BΔA. If the element takes time Δt to cross the dotted line, the rate of change of flux with respect to time is BΔA/Δt. Look at the picture again. What is ΔA in terms of L and Δx? What is BΔA/Δt?

BloodFlow.png
 

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Ah I see it now. I was taking A to be the area of cross-section of the artery...but of course the field can't be parallel to the blood flow.

Thanks for your help
 

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