. A current-carryingwire is oriented along the x axis. It passesthrough a region 0.164 m long in whichthere is a magnetic field of 1.89 T in the +zdirection. The wire experiences a force of23 N in the +y direction as shown in thefigure.F1. ) The current can be calculatedusing the formula number (refer to formulasheet)) The magnetic field vector2."acting on the wire can be expressed as:B =3.(.t) The magnitude of the electriccurrent can be calculated using:(0.164)(23)x(1.89)(23)(1.89)X(0.164)(1.89)(23)x(0.164)4. (The magnitude of the currentis equal to: /=5. (.) The direction of the currentflow in the wire will be pointing to:OThe rightOUpwardOThe leftODownward6.If the current direction isopposite to the calculated one, themagnetic force direction acting on thewire will be pointing to:ODownwardOThe leftOThe rightOUpward

Since more than three subparts are provided , solution for the first four is given here.

A current-carrying wire is oriented along the x axis. It passes through a region 0.164 m long in which there is a magnetic field of 1.89 T in the +z direction. The wire experiences a force of 23 N in the +y direction as shown in the figure. F 1. ) The current can be calculated using the formula number (refer to formula sheet) 2. ) The magnetic field vector acting on the wire can be expressed as: 3. (t) The magnitude of the electric current can be calculated using: (0.164) O23)x(1.89) (23) (1.89)X(0.164) (L89) (23)x(0.164) 4. ( 9 The magnitude of the current

A current-carrying wire is oriented along the x axis. It passes through a region 0.164 m long in which there is a magnetic field of 1.89 T in the +z direction. The wire experiences a force of 23 N in the +y direction as shown in the figure. F 1. ) The current can be calculated using the formula number (refer to formula sheet) 2. ) The magnetic field vector acting on the wire can be expressed as: 3. (t) The magnitude of the electric current can be calculated using: (0.164) O23)x(1.89) (23) (1.89)X(0.164) (L89) (23)x(0.164) 4. ( 9 The magnitude of the current

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Question

. A current-carrying
wire is oriented along the x axis. It passes
through a region 0.164 m long in which
there is a magnetic field of 1.89 T in the +z
direction. The wire experiences a force of
23 N in the +y direction as shown in the
figure.
F
1. ) The current can be calculated
using the formula number (refer to formula
sheet)
) The magnetic field vector
2."
acting on the wire can be expressed as:
B =
3.(
.t) The magnitude of the electric
current can be calculated using:
(0.164)
(23)x(1.89)
(23)
(1.89)X(0.164)
(1.89)
(23)x(0.164)
4. (
The magnitude of the current
is equal to: /=
5. (.) The direction of the current
flow in the wire will be pointing to:
OThe right
OUpward
OThe left
ODownward
6.
If the current direction is
opposite to the calculated one, the
magnetic force direction acting on the
wire will be pointing to:
ODownward
OThe left
OThe right
OUpward

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