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A strip of copper 150 µm thick and 4.50 mm wide is placed in a uniform magnetic field of magnitude B = 0.74 T, that is perpendicular to the strip. A current i = 18 A is then sent through the strip such
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A strip of copper 150 µm thick and 4.50 mm wide is placed in a uniform magnetic field of magnitude B = 0.74 T, that is perpendicular to the strip. A current i = 18 A is then sent through the strip such that a Hall potential difference V appears across the width. Calculate V. (The number of charge carriers per unit volume for copper is 8.47 × 1028 electrons/m3.)

User Matt Parrilla
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1 Answer

5 votes

Answer:

V = 6.55*10^{-6} v

Step-by-step explanation:

The number density can be determined by using below formula:


n = (Bi)/(Vle)

where,

B is uniform magnetic field 0.74

i is current 18 A

V is hall potential difference

l is thickness 150 MICRO METER

e is electron charge 1.6 *10^{-19} C

therefore V can be determined as


V = (iB)/(nle)


V = (18*0.74)/(8.47*10^(28)*150*10^(-6)*1.6 *10^(-19))

V = 6.55*10^{-6} v

User Giovanni Caporaletti
by
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