Electromagnetic oscillator

1. State the composition and properties of an electromagnetic oscillator.

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2. How will the oscillation frequency of the LC circuit change if we move the plates of the capacitor closer together?

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3.The oscillating circuits have parameters: 

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4.An oscillating circuit consists of a capacitor with capacitance C = 10 μF and a coil with variable inductance. Over what interval must the coil’s inductance vary so that the circuit’s natural oscillation frequency varies from 400 Hz to 500 Hz?

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5.The oscillating circuit consists of a coil with inductance L = 3 mH and a parallel-plate capacitor whose plates are disks of radius 1.2 cm. The separation of the plates is 0.3 mm. Determine the period of the oscillating circuit. How does the period change if we insert a dielectric with ε_r = 4 between the plates of the capacitor?

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6.We connect a capacitor with capacitance C₁ to a coil with constant inductance L. We find that the oscillator oscillates with natural frequency f₁ = 100 kHz. If we connect a capacitor with capacitance C₂ to this coil, the oscillator will oscillate with natural frequency f₂ = 160 kHz. What natural frequency will the oscillator have if we connect both capacitors to the coil

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7.The voltage on the plates of a capacitor in an oscillatory circuit changes according to the equation u = 50cos (10⁴π.t) (V). The capacitance of the capacitor is C = 0.1 μF. Calculate the oscillation period T of the circuit and write the equation for the instantaneous value of the current.

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8.The oscillatory circuit consists of a capacitor with capacitance C = 24 nF and a coil with inductance L = 0.6 H. At the initial moment, the capacitor is charged to the voltage U_max = 50 V. Write the equation for the instantaneous value of the current in the circuit.

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9.The instantaneous value of the current in an oscillatory circuit is given by the equation i = 0.01·sin (ω t) (A). Calculate the energy of the magnetic field of the coil at time t = T/8 s. The oscillatory circuit contains a coil with inductance
L = 0.6 H.

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10.The instantaneous value of the voltage in an oscillatory circuit is given by the equation u = 50·cos (ω.t) (V). Calculate the energy of the electric field of a capacitor with capacitance C = 24 nF at time t = T/8 s.

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11.An oscillatory circuit in which a coil (L) and a plate capacitor (C₁) with plate spacing
d₁ = 4.8 mm are connected is tuned to the wavelength λ₁ = 300 m. How must the spacing between the capacitor plates be changed so that the oscillatory circuit is tuned to the wavelength λ₂ = 240 m?

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12.The capacitance of the capacitors in the oscillatory circuit of a radio receiver can vary from C₁ = C to C₂ = 9C. Determine the range of wavelengths of the receiver if the minimum capacitance C₁ corresponds to λ₁ = 3 m.
(L₁ = L₂ = L)

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13.An oscillatory circuit whose capacitance is C = 4 μF has a frequency f₁ = 200 Hz. If another capacitor with capacitance C_x is connected in parallel to the capacitor, the natural frequency decreases to f₂ = 100 Hz. Calculate the capacitance of the added capacitor C_x.

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14.In an oscillatory circuit, a capacitor (C = 0.01 μF), a coil (L = 0.1 H), and a resistor (R = 1000 Ω) are connected in series. What is the ratio of the frequencies of the circuit with resistance and without resistance?

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