Question 15 Suppose a 12.0V potential difference is placed across a cylindrical conductor of cross-sectional area of 0.100 m². If the resistance of the conductor is 0.50 Ohms, calculate the average current density inside the conductor. Question 16 D In the above problem, suppose there are a volume density of 2.00 x 1026 electrons/m³. Calculate the drift speed of the electrons in Example: 3.2 -3.2 x 10 . So you would enter 3.2. (micro-meters/second).
Question 15 Suppose a 12.0V potential difference is placed across a cylindrical conductor of cross-sectional area of 0.100 m². If the resistance of the conductor is 0.50 Ohms, calculate the average current density inside the conductor. Question 16 D In the above problem, suppose there are a volume density of 2.00 x 1026 electrons/m³. Calculate the drift speed of the electrons in Example: 3.2 -3.2 x 10 . So you would enter 3.2. (micro-meters/second).
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Transcribed Image Text:Question 15
Suppose a 12.0V potential difference is placed across a cylindrical conductor of cross-sectional area of 0.100 m². If the resistance of the conductor is 0.50 Ohms,
calculate the average current density inside the conductor.
Question 16
In the above problem, suppose there are a volume density of 2.00 x 1026 electrons/m³. Calculate the drift speed of the electrons in
Example: 3.2 -3.2 x 10-6 m. So you would enter 3.2.
FATT
(micro-meters/second).
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