Question

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✔ What are the basic properties required by a system to oscillate?

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Answer 1

1-Introduction ;content of paper.

2-Autonomous system.

Answer 2

Ans➡️ An oscillation can be a periodic motion that repeats itself in a regular cycle, such as a sine wave, the side-to-side swing of a pendulum, or the up-and-down motion of a spring with a weight. 

An oscillation can be a periodic motion that repeats itself in a regular cycle, such as a sine wave, the side-to-side swing of a pendulum, or the up-and-down motion of a spring with a weight. Properties Required by a system to Oscillate.

An oscillation can be a periodic motion that repeats itself in a regular cycle, such as a sine wave, the side-to-side swing of a pendulum, or the up-and-down motion of a spring with a weight. Properties Required by a system to Oscillate.Frequency Range.The oscillator that is chosen for a certain application has to be ca­pable of supplying an output signal whose upper and lower frequency limit

Power and/or Voltage. The oscillator which is selected for a particular application needs to be capable of creating a significant quantity with a magnitude.

Accuracy and Dial Resolution.The accuracy can be defined as how closely the output frequency corresponds to the frequency indicated on the dial of the in­strument.

Accuracy and Dial Resolution.The accuracy can be defined as how closely the output frequency corresponds to the frequency indicated on the dial of the in­strument. Amplitude and Frequency Stability. The amplitude stability estimates an oscillator’s potential to maintain constant voltage amplitude with variations in the output signal frequency.

Accuracy and Dial Resolution.The accuracy can be defined as how closely the output frequency corresponds to the frequency indicated on the dial of the in­strument. Amplitude and Frequency Stability. The amplitude stability estimates an oscillator’s potential to maintain constant voltage amplitude with variations in the output signal frequency.Waveform Distortion.This quantity measures how closely the output wave­form of the oscillator resembles a pure sinusoidal signal.

Accuracy and Dial Resolution.The accuracy can be defined as how closely the output frequency corresponds to the frequency indicated on the dial of the in­strument. Amplitude and Frequency Stability. The amplitude stability estimates an oscillator’s potential to maintain constant voltage amplitude with variations in the output signal frequency.Waveform Distortion.This quantity measures how closely the output wave­form of the oscillator resembles a pure sinusoidal signal. Output Impedance. The output impedance of an oscillator denotes the impedance value of the load that needs be connected to it for maximum power transfer.

E.g.:(1)An Oscillating Table Fan

E.g.:(1)An Oscillating Table Fan(2)The Pendulum of a wall clock.

E.g.:(1)An Oscillating Table Fan(2)The Pendulum of a wall clock.(3)A Swinging Cradle.

E.g.:(1)An Oscillating Table Fan(2)The Pendulum of a wall clock.(3)A Swinging Cradle.(4)Opening and Closing the door of a refrigerator.

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