Find the oscillation period of an oscillating circuit with an inductance of 65 Henry and an electrical capacity of 14 Farads.
March 4, 2021 | education
| The period of magnetic oscillations in the oscillatory circuit is calculated using the Thompson formula:
T = (2 * Π * sqrt (L * C)), where L is the inductance of the coil (L = 65 H), C is the electrical capacity (C = 14 F).
Let’s calculate the period of oscillation in the circuit:
T = (2 * Π * sqrt (L * C)) = (2 * 3.14 * sqrt (65 * 14) = 189.4 s.
Answer: The oscillation period of the oscillating circuit is 189.4 s, although such a circuit cannot exist, since even the electrical capacity of the planet Earth is only 710 μF.
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