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Two circular rings of identical radii an...

Two circular rings of identical radii and resistance of `36Omega` each are placed in such a way that they cross each others centre `C_1` and `C_2` as shown in figure. Conducting joints are made at intersection point A and B of the rings. An ideal cell of emf 20 volts is connected across AB. The power delivered by cell is:

Text Solution

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The correct Answer is:
1
The resistance of four sections are shown in figure.
Hence, the equivalent resistance `R` across `AB` is
`(1)/(R ) = (1)/( 24) + (1)/(12) + (1)/(12) + (1)/(24) or R = 4 omega`
Power `= V^(2)//R = 20^(2)//4 = 100 W`
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Knowledge Check

  • Five resistance, each of 5Omega are connected as shown in figure. Find the equivalent resistance between points (1) A and B , (2) A and C .

    A
    (1) `7.5Omega` (2) `2.25Omega`
    B
    (1) `5Omega` (2) `2.50Omega`
    C
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    D
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  • Six resistors each of value 3ohm are connected as shown in the figure.A cell of emf 3V is connected across AB.The effective resistance across AB and the current through the arm AB will be .

    A
    `0.6 ohm,1 A`
    B
    `1.5 ohm, 2A`
    C
    `0.6 ohm, 2A`
    D
    `1.5 ohm 1 A`

  • Six resistors each of value 3ohm are connected as shown in the figure.A cell of emf 3V is connected across AB.The effective resistance across AB and the current through the arm AB will be .

    A
    `0.6 ohm,1 A`
    B
    `1.5 ohm, 2A`
    C
    `0.6 ohm, 2A`
    D
    `1.5 ohm 1 A`