1) A long straight wire caring current / = 1.6 A as shown in Figure 1. An electron at distance of d = 1.00 cm from wire is moving with velocity of 90.0 m/s in positive x-direction. Find the direction and magnitude of magnetic force on the electron. In what location at a distance of d = 1.00 cm from the electron how many protons can we put to make the net force on electron at this condition be equal zero.
1) A long straight wire caring current / = 1.6 A as shown in Figure 1. An electron at distance of d = 1.00 cm from wire is moving with velocity of 90.0 m/s in positive x-direction. Find the direction and magnitude of magnetic force on the electron. In what location at a distance of d = 1.00 cm from the electron how many protons can we put to make the net force on electron at this condition be equal zero.
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![1) A long straight wire caring current / = 1.6 A as shown in Figure 1. An electron at distance of
d= = 1.00 cm from wire is moving with velocity of 90.0 m/s in positive x-direction. Find the
direction and magnitude of magnetic force on the electron. In what location at a distance of d =
1.00 cm from the electron how many protons can we put to make the net force on electron at this
condition be equal zero.
L
Fig 1. Problem 1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F94fdd70b-c243-496a-933b-a31608cb457d%2F61d7f013-81a8-417c-a23c-982c9c2a837f%2Fwy1tfhj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1) A long straight wire caring current / = 1.6 A as shown in Figure 1. An electron at distance of
d= = 1.00 cm from wire is moving with velocity of 90.0 m/s in positive x-direction. Find the
direction and magnitude of magnetic force on the electron. In what location at a distance of d =
1.00 cm from the electron how many protons can we put to make the net force on electron at this
condition be equal zero.
L
Fig 1. Problem 1
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