0 1) At time t = t₁ = 0.024 s, what is 1₁, the induced current in the loop? I₁ is defined to be positive if it is in the counterclockwise direction. A Submit You currently have 1 submissions for this question. Only 10 submission are allowed. You can make 9 more submissions for this question. 2) At time t = t₂ = 0.521 s, what is 12, the induced current in the loop? 1₂ is defined to be positive if it is in the counterclockwise direction. A Submit You currently have 1 submissions for this question. Only 10 submission are allowed. You can make 9 more submissions for this question. Submit 4 3) What is FX(t₂), the x-component of the force that must be applied to the loop to maintain its constant velocity v = 46 cm/s at t = t₂ = 0.521 s?

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Chapter1: Units, Trigonometry. And Vectors
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A conducting loop is made in the form of two squares of sides \( s_1 = 3.3 \, \text{cm} \) and \( s_2 = 6.8 \, \text{cm} \) as shown in the diagram. At time \( t = 0 \), the loop enters a region of length \( L = 18.4 \, \text{cm} \) that contains a uniform magnetic field \( B = 1.5 \, \text{T} \), directed in the positive z-direction. The loop continues through the region with constant speed \( v = 46 \, \text{cm/s} \). The resistance of the loop is \( R = 2.2 \, \Omega \).

### Questions:
1) **At time \( t = t_1 = 0.024 \, \text{s} \), what is \( I_1 \), the induced current in the loop?**  
   \( I_1 \) is defined to be positive if it is in the counterclockwise direction.

   [Input box for answer] \( A \) [Submit button]

   *Note: You currently have 1 submission for this question. Only 10 submissions are allowed. You can make 9 more submissions for this question.*

2) **At time \( t = t_2 = 0.521 \, \text{s} \), what is \( I_2 \), the induced current in the loop?**  
    \( I_2 \) is defined to be positive if it is in the counterclockwise direction.

    [Input box for answer] \( A \) [Submit button]

   *Note: You currently have 1 submission for this question. Only 10 submissions are allowed. You can make 9 more submissions for this question.*

3) **What is \( F_x(t_2) \), the x-component of the force that must be applied to the loop to maintain its constant velocity \( v = 46 \, \text{cm/s} \) at \( t = t_2 = 0.521 \, \text{s} \)?**

    [Input box for answer] \( N \) [Submit button]

   *Note: You currently have 1 submission for this question. Only 10 submissions are allowed. You can make 9 more submissions for this question.*

### Diagram
Transcribed Image Text:A conducting loop is made in the form of two squares of sides \( s_1 = 3.3 \, \text{cm} \) and \( s_2 = 6.8 \, \text{cm} \) as shown in the diagram. At time \( t = 0 \), the loop enters a region of length \( L = 18.4 \, \text{cm} \) that contains a uniform magnetic field \( B = 1.5 \, \text{T} \), directed in the positive z-direction. The loop continues through the region with constant speed \( v = 46 \, \text{cm/s} \). The resistance of the loop is \( R = 2.2 \, \Omega \). ### Questions: 1) **At time \( t = t_1 = 0.024 \, \text{s} \), what is \( I_1 \), the induced current in the loop?** \( I_1 \) is defined to be positive if it is in the counterclockwise direction. [Input box for answer] \( A \) [Submit button] *Note: You currently have 1 submission for this question. Only 10 submissions are allowed. You can make 9 more submissions for this question.* 2) **At time \( t = t_2 = 0.521 \, \text{s} \), what is \( I_2 \), the induced current in the loop?** \( I_2 \) is defined to be positive if it is in the counterclockwise direction. [Input box for answer] \( A \) [Submit button] *Note: You currently have 1 submission for this question. Only 10 submissions are allowed. You can make 9 more submissions for this question.* 3) **What is \( F_x(t_2) \), the x-component of the force that must be applied to the loop to maintain its constant velocity \( v = 46 \, \text{cm/s} \) at \( t = t_2 = 0.521 \, \text{s} \)?** [Input box for answer] \( N \) [Submit button] *Note: You currently have 1 submission for this question. Only 10 submissions are allowed. You can make 9 more submissions for this question.* ### Diagram
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