Physics, asked by rupinderkaur5219, 10 months ago

A circular coil of n turns and radius r carries a current of I it is unwound and rewound to make another coil of radius r/2 current I is same. Calculate the ratio of magnetic moments of the new coil and the original coil.

Answers

Answered by jeeyajohn
1

Explanation:

1891, Tesla unveiled one of his most important inventions, the "Tesla coil," a high-frequency transformer capable of creating very high voltage at low current. He built several variations of his invention.

The most popular of his designs is made up of a transformer, capacitor, spark gap, main coil, minor coil and discharge sphere. Here is how it works: The transformer receives a charge of about 100 volts from an outside source and increases it to as many as 50,000 volts or more. The capacitor stores the voltage until it reaches its limit, at which point the spark gap emits all of the pent-up energy in one massive outburst, surging to the main coil, which is often built out of wide copper wire, generating a powerful magnetic field. The current continues to the minor coil that serves as a transformer, utilizing the effects of the magnetic field to build enormous quantities of voltage. At this point, the electricity flows to a discharge sphere that emits the current as a stream or arc of sparks.

Circuitry using the Tesla coil was part of the first generation of transmitters to carry wireless telegraphy. Tesla used his brainchild to research such diverse areas as lighting, X-rays and electric power transmission. Customized Tesla coils are now frequently used to ignite powerful mercury and sodium streetlamps.

Answered by satveer2410a
2

Explanation:

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