) A long straight wiresuspended in the air carries aconventional current of 9.43 A in the -xdirection as shown in Figure (the wireruns along the x axis). At a particularinstant 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 out1.The direction of the magneticfield due to the wire at the location of theproton:OInto the pageOOut of the pageOUpwardODownward2.; The magnetic field due to thewire can be calculated using the formulanumber (refer to the formula sheet)3. What is the (vector) magneticfield due to the wire at the location of theproton?B =4.)The magnetic force acting onthe proton calculated using the formulanumber (refer to the formula sheet)5.(. :) What is the (vector) magneticforce on the proton due to the current inthe wire?F =

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)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: OInto the page OOut of the page OUpward Downward ; The magnetic field due to the wire can be calculated using the formula number (refer to the formula sheet) 2.

)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: OInto the page OOut of the page OUpward Downward ; The magnetic field due to the wire can be calculated using the formula number (refer to the formula sheet) 2.