2. The circuit shown below lies in a uniform magnetic field of magnitude 3.46 T that is directed into the page. Two parallel metal rails are separated by 4.53 cm and connected by a 1.15-k resistor. A conducting metal rod completes the circuit and is forced to slide to the right with a constant speed of 6.93 m/s. 4.53 cm Given: Task: lind? Physics: Solve: R Ⓡ a. 1 8 Ⓡ ◄ vt 8 8 8 @ ∞ 8 8 8 conducting metal rod Calculate the magnitude of the induced current in the circuit
2. The circuit shown below lies in a uniform magnetic field of magnitude 3.46 T that is directed into the page. Two parallel metal rails are separated by 4.53 cm and connected by a 1.15-k resistor. A conducting metal rod completes the circuit and is forced to slide to the right with a constant speed of 6.93 m/s. 4.53 cm Given: Task: lind? Physics: Solve: R Ⓡ a. 1 8 Ⓡ ◄ vt 8 8 8 @ ∞ 8 8 8 conducting metal rod Calculate the magnitude of the induced current in the circuit
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Transcribed Image Text:2. The circuit shown below lies in a uniform magnetic field of magnitude 3.46 T that
is directed into the page. Two parallel metal rails are separated by 4.53 cm and
connected by a 1.15-k resistor. A conducting metal rod completes the circuit
and is forced to slide to the right with a constant speed of 6.93 m/s.
4.53 cm
8
HOB
R
Given:
Task: lind?
Physics:
1
Solve:
◄ vt
8
8
-conducting metal rod
a. Calculate the magnitude of the induced current in the circuit
Transcribed Image Text:b. Determine the direction of the induced current. Circle the best response.
(1) Clockwise.
(2) Counterclockwise.
(3) Into the page.
(4) Out of the page.
(5) No current is induced.
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