Damping
The dissipation of mechanical energy from an oscillating system through friction, air resistance, or other resistive forces, causing the amplitude to decrease over time. Damping is proportional to velocity (F_damp = −bv, where b is the damping coefficient). Light damping preserves oscillation but reduces amplitude; critical damping returns the system to equilibrium fastest without overshooting; heavy damping causes slow return without oscillation.
Formula
F_damp = −bv
Real World
Car suspension systems use oil-filled shock absorbers designed for critical damping — returning the wheel to equilibrium as fast as possible without bouncing, keeping tyres in contact with the road.
Exam Focus
Clearly distinguish light, critical, and heavy damping by describing displacement-time graph shape; confusing critical and heavy damping is a common error.
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