What is the speed of the blood?

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To determine the speed of blood in the artery with a diameter of 2.30 mm and a magnetic field of 0.065 T, the voltage difference of 175 µV is crucial. The electric field (E) can be calculated using the potential difference and the geometry of the blood vessel, which allows for solving the problem. The relationship v = E/B can be applied, where E is derived from the voltage and the distance between electrodes. The discussion emphasizes that with the right calculations, the speed of blood can be accurately determined. Overall, the problem is solvable with the provided information.
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The artery in Figure 22-11 has an inside diameter of 2.30 mm and passes through a region where the magnetic field is 0.065 T.


(a) If the voltage difference between the electrodes is 175 µV, what is the speed of the blood?
m/s

quite honestly, i do not know how to go about this one maybe v= E/B BUT E is not given and i don,t know of an equation to acquire E from the above eaqn, since no charge is given. how should i go about. thks
 
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you can find E because you know the potential difference and the geometry of the blood vessel. The magnitude of the electric field depends on the distance a point is from a potential difference.
 
thank very solvable now :)
 

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