Problem 11: . .:) A long straight wire suspended in the air carries a conventional current of 9.43 A in the -x direction as shown in Figure (the wire runs along the x axis). At a particular instant a proton at location (0, -0.0319, 0> m has velocity (6x 10°, 0, 0) m/s. (Consider the charge of the proton: 9, = 1.6x 10-19 C). Z out 1. (. :) The direction of the magnetic field due to the wire at the location of the proton:
Problem 11: . .:) A long straight wire suspended in the air carries a conventional current of 9.43 A in the -x direction as shown in Figure (the wire runs along the x axis). At a particular instant a proton at location (0, -0.0319, 0> m has velocity (6x 10°, 0, 0) m/s. (Consider the charge of the proton: 9, = 1.6x 10-19 C). Z out 1. (. :) The direction of the magnetic field due to the wire at the location of the proton:
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Transcribed Image Text:Problem 11:
.) A long straight wire
suspended in the air carries a
conventional current of 9.43 A in the -x
direction as shown in Figure (the wire
runs along the x axis). At a particular
instant a proton at location (0, -0.0319, 0>
m has velocity (6x10°, 0, 0)
m/s. (Consider the charge of the proton:
9, = 1.6x 10-19 C).
Ino 2
1. (.
;) The direction of the magnetic
field due to the wire at the location of the
proton:
OInto the page
Out of the page
OUpward
ODownward
2.(- ) The magnetic field due to the
wire can be calculated using the formula
number (refer to the formula sheet)
3.
3) What is the (vector) magnetic
field due to the wire at the location of the
proton?
B =
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