Review I Constants A vertically oriented square loop of copper wire falls from rest in a region in which the field B is horizontal, uniform, and perpendicular to the plane of the loop, into a field- free region, see (Figure 1). The side length of the loop is s and the wire diameter is d. The resistivity of copper is PR and the density of copper is Pm. If the loop reaches Part J Find the induced current. Express your answer in terms of the variables s, B, vt, and R, which is resistance of the entire circuit. its terminal speed while its upper segment is still in the magnetic-field region, find an expression for the terminal • View Available Hint(s) speed. Hνα ΑΣφ ? I = Submit Part K Complete previous part(s) Figure 1 of 1 Part L Complete previous part(s) Square loop of copper wire ks = side length Part M Complete previous part(s) × B x Part N Complete previous part(s) Above this line: B uniform and horizontal s = side length EVALUATE Below this line: B = 0 d = wire diameter Oterminal = ? Part O Complete previous part(s)

Please help me with this question.

Transcribed Image Text:

I Review I Constants A vertically oriented square loop of copper wire falls from rest in a region in which the field B is horizontal, uniform, and perpendicular to the plane of the loop, into a field- free region, see (Figure 1). The side length of the loop is s and the wire diameter is d. The resistivity of copper is PR and the density of copper is Pm. If the loop reaches its terminal speed while its upper segment is still in the magnetic-field region, find an expression for the terminal speed. Part J Find the induced current. Express your answer in terms of the variables s, B, vt, and R, which is resistance of the entire circuit. • View Available Hint(s) I = Submit Part K Complete previous part(s) Figure 1 of 1 Part L Complete previous part(s) ks = side length > Square loop of copper wire. Part M Complete previous part(s) x x xBx x Part N Complete previous part(s) Above this line: B uniform and horizontal s = side length EVALUATE Below this line: B = 0 d = wire diameter Urerminal Part O Complete previous part(s)