Balancing the electric and magnetic forces :
q E = q v B
Therefore E = v B = 0.3 x 0.6 V/m = 0.18 V/m
Thus V = 0.18 x 5.6 milli volt = 1.008 mV
Thus voltage = 1.008 mV = 1.008 x 10-3 V
Problem 7 The drawing shows a type of blood flow meter. Blood is conductive enough that...
Problem 7 The drawing shows a type of blood flow meter. Blood is conductive enough that it can be treated as a moving conductor. When it flows perpendicular to a magnetic field, electrodes can be used to measure the small voltage that develops across the vessel. Suppose the speed of the blood is 0.3 m/s, the diameter of the vessel is 5.6 mm and B = 0.6 T. What is the magnitude of the voltage that is measured? Provide detailed...
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measure electrodes the small can voltage be used that to develops
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The drawing shows a type of blood flow meter. Blood is conductive enough that it can be treated as a moving conductor. When it flows perpendicular to a magnetic field, electrodes can be used to measure the small voltage that develops across the vessel. Suppose the speed of the blood is 0.3 m/s, the diameter of the vessel is 5.6 mm and B = 0.6 T. What is the magnitude of the voltage that is measured? Provide detailed explanation X...
The drawing shows a type of flow meter that can be used to measure the speed of blood in situations when a blood vessel is sufficiently exposed (e.g., during surgery). Blood is conductive enough that it can be treated as a moving conductor. When it flows perpendicularly with respect to a magnetic field, as in the drawing, electrodes can be used to measure the small voltage that develops across the vessel. Suppose the speed of the blood is 0.35 m/s...
Chapter 22, Problem 04 The drawing shows a type of flow meter that can be used to measure the speed of blood in situations when a blood vessel is sufficiently exposed (e.g., during surgery). Blood is conductive enough that it can be treated as a moving conductor. When it flows perpendicularly with respect to a magnetic field, as in the drawing, electrodes can be used to measure the small voltage that develops across the vessel. Suppose the speed of the...
ctromagnetic Induction HOOSE 2 QUESTIONS: a) A flow meter can be used to measure the speed of blood in situations when a blood essel is sufficiently exposed.Blood is conductive enough that it can be treated as a moving conductor. When it flows perpendicularly with respect to a magnetic field, electrodes can be used to measure a small voltage across the vessel. Suppose the speed of the blood is 0.30 m/s and the diameter of the vessel is 5.6mm. In a...
7) A blood flow monitor uses a 0.5T field applied to a blood vessel perpendicular to the flow and measures the voltage across the same vessel perpendicular to both the blood flow and the field. Given the blood vessel is 2mm in diameter approximate the voltage measure. Blood flow velocity is roughly 0.3 m/s in large blood vessels. a. Assume E=V/d where d is the vessel diameter b. Use v=E/B assuming the forces on the ions in blood cancel out...
please answer d & e with full explanations, thanks!
1. This problem investigates the use of the Hall effect to study blood flow. When a current / travels along a conducting plate of width w, which lies perpendicular to a magnetic field B, a potential difference V develops across the plate as shown in the figure below. + + + + + + a. Show the direction of the electric field on the diagram. (Either copy the diagram from this...
summatize the following info and break them into differeng key points. write them in yojr own words
apartus
6.1 Introduction—The design of a successful hot box appa- ratus is influenced by many factors. Before beginning the design of an apparatus meeting this standard, the designer shall review the discussion on the limitations and accuracy, Section 13, discussions of the energy flows in a hot box, Annex A2, the metering box wall loss flow, Annex A3, and flanking loss, Annex...