Forced Oscillation Calculator

Analyze driven harmonic oscillators. Calculate steady-state response, phase lag, resonance, and power absorption.

System Parameters

Mass (kg)1 kg

0.1 kg100 kg

Spring Constant (N/m)100 N/m

1 N/m1,000 N/m

N/m

Damping Coefficient (kg/s)2 kg/s

0.1 kg/s50 kg/s

kg/s

Driving Force Amplitude (N)10 N

0.1 N100 N

Driving Frequency (rad/s)8 rad/s

0.1 rad/s50 rad/s

rad/s

Natural frequency: 10.0000 rad/s | Resonance: 9.8995 rad/s

Time (s)0 s

0 s10 s

Steady-State Amplitude

0.253837 m

Frequency ratio: ω/ω₀ = 0.8000

xPosition at t=0s

0.231959 m

vVelocity at t=0s

0.824742 m/s

φPhase Lag

23.96°

QQuality Factor

5.0000

Resonance Parameters:

Resonance Frequency

9.8995 rad/s

Amplitude at Resonance

0.505076 m

PPower Absorbed

4.123711 W

PMax Power (at resonance)

25.000000 W

Steady-State Solution:

x(t) = A cos(ωt - φ)

What is Forced Oscillation?

Forced oscillation occurs when an external periodic force is applied to an oscillating system. After initial transients die out, the system reaches a steady state where it oscillates at the driving frequency (not its natural frequency). The amplitude depends on how close the driving frequency is to the natural frequency, reaching maximum at resonance. The response lags behind the driving force by a phase angle that depends on damping and frequency.

Key Concepts

Resonance

Maximum amplitude occurs when driving frequency matches resonance frequency

Phase Lag

Response lags behind driving force; exactly 90° at resonance

Quality Factor

Higher Q means sharper resonance peak and less damping

Power Absorption

Maximum power is absorbed at resonance frequency

Forced Oscillation Calculator

System Parameters

What is Forced Oscillation?

Key Concepts

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