3) A thin wire { = 30.0 cm long is held parallel to and d = 80.X cm above a long, thin wire carrying I = 20Y Amp and fixed in position. The 30.0-cm wire is released at the instant t = 0 and falls, remaining parallel to the current-carrying wire as it falls. Assume the falling wire accelerates at 9.80 m/s. (a) At what time, the induced emf value in the 30.0-cm wire will approach infinity? Please give the answer in second unit with four significant figures. (b) What is the induced emf in the 30.0-cm wire, 0.400 s after the wire is released? Please give the answer in voltage unit with four significant figures.

How to solve this? X = 9 Y = 2

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3) A thin wire { = 30.0 cm long is held parallel to and Fl→| d = 80.X cm above a long, thin wire carrying I= 20Y Amp and fixed in position. The 30.0-cm wire is released at the instant t = 0 and falls, remaining parallel to the current-carrying wire as it falls. Assume the falling wire accelerates at 9.80 m/s. (a) At what time, the induced emf value in the 30.0-cm wire will approach infinity? Please give the answer in second unit with four significant figures. (b) What is the induced emf in the 30.0-cm wire, 0.400 s after the wire is released? Please give the answer in voltage unit with four significant figures.