Physics, asked by Anonymous07, 1 year ago

What is simple harmonic resonance? (In easy words please) (Quantum Physics)​

Answers

Answered by anindya6
2

Answer:

REASONANCE IN SIMPLE HARMONIC MOTIONS.FOR REASONANCE TO OCCUR THE DRIVING FREQUENCY(FREQUENCY YOU PUSH IT AT)HAS TO EQUAL THE NATURAL FREQUENCY BEING THE FREQUENCY SOMETHING VIBRATES IF YOU JUST PULLED IT AND LET IT GO.

HOPE IT WILL HELP YOU

Answered by nithin456
2

Resonance In Simple Harmonic Motions

For resonance to occur, the driving frequency (frequency you push it at) has to equal the natural frequency with the natural frequency being the frequency something vibrates if you just pulled it and let it go.

For a pendulum, T = 2π√(L/G) with f = 1/T. Therefore, f = 1/2π x √(G/L). L = length of the pendulum while G is gravity at 9.8.

For a mass on a spring, T = 2π√(m/k) with f =1/T. Therefore, f = 1/2π x √(k/m). k is the spring constant of that spring with m being the mass of the spring.

Resonance In Simple Harmonic Motions

For resonance to occur, the driving frequency (frequency you push it at) has to equal the natural frequency with the natural frequency being the frequency something vibrates if you just pulled it and let it go.

For a pendulum, T = 2π√(L/G) with f = 1/T. Therefore, f = 1/2π x √(G/L). L = length of the pendulum while G is gravity at 9.8.

For a mass on a spring, T = 2π√(m/k) with f =1/T. Therefore,

f = 1/2π x √(k/m). k is the spring constant of that spring with m being the mass of the spring.

Things Resonate because,When the driving frequency reaches the natural frequency, the energy being put into the simple harmonic motion by the driving frequency is more than the energy lost by the SHM at its natural frequency causing the amplitude of the frequency to increase.

CONCLUSION

Simple harmonic motions resonate when the driving frequency reaches the natural frequency.

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