Twelve wires, each having equal resistance of 2 Ω, are joined to form a cube. Equivalent resistance between the ends of a face diagonal is.
A
1.5Ω
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B
0.4Ω
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C
0.66Ω
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D
1.25Ω
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Solution
The correct option is A1.5Ω
Im going to take a current I flowing in through A due to an externally connected cell V. Let the current going into AC be i. That must be the same current coming through EB into node B because those two arms are symmetric. I’m just calling a junction a node. Now, Currents through arms AD and AH must be the same. Let it be (I−i)2. Now currents must divide at junction C symmetrically as i2 and i2. There must be no currents through the arms HF and DG as the currents are the same through AD and DB; and hence CF and FE.
Thus if there is a cell connected between A and B with voltage V,
Taking loop ABEA, 2(I−i)2+2(I−i)2−V=0V=2(I−i)→(1)NowtakeloopACFEBA,2i+2i2+2i2+2i−V=0V=6ii=V6Pluggingthisbackinto(1),V=2I−V34V3=2IVI=32Ω
The resistance between points A and B is 32Ω.