Free & Forced Oscillations
Free Oscillations
- Free oscillations occur when there is no transfer of energy to or from the surroundings
- This happens when an oscillating system is displaced and then left to oscillate
- In practice, this only happens in a vacuum. However, anything vibrating in air is still considered a free vibration as long as there are no external forces acting upon it
- Therefore, a free oscillation is defined as:
An oscillation where there are only internal forces (and no external forces) acting and there is no energy input
- A free vibration always oscillates at its resonant frequency
Forced Oscillations
- In order to sustain oscillations in a simple harmonic system, a periodic force must be applied to replace the energy lost in damping
- This periodic force does work on resistive forces (i.e. the force that decreases the amplitude of the oscillations), such as air resistance
- It is sometimes known as an external driving force
- This period force creates forced oscillations (or vibrations) is are defined as:
Oscillations which are produced by a periodic external force
- Forced oscillations are made to oscillate at the same frequency as the external oscillator creating the external, periodic driving force
- This means the driving force can change the frequency of the oscillator
Resonance
- The frequency of the forced oscillations on a system is referred to as the driving frequency f
- All oscillating systems have a natural frequency f0 which is defined as
The frequency of an oscillation when the oscillating system is allowed to oscillate freely
- Oscillating systems can exhibit a property known as resonance when
driving frequency f = natural frequency f0
- When the driving frequency approaches the natural frequency of an oscillator, the system gains more energy from the driving force
- Eventually, when they are equal, the oscillator vibrates with its maximum amplitude
- This is resonance
- Resonance is defined as:
When the frequency of the applied force to an oscillating system is equal to its natural frequency, the amplitude of the resulting oscillations is at its maximum
Example of resonance: a child pushed on a swing
- Every system (in this case, the swing and the child) has a fixed natural frequency
- A small push (the driving force) after each cycle increases the amplitude of the oscillations, resulting in the swing's motion back and forth
- The frequency at which the swing is pushed is the driving frequency
- When the driving frequency is equal to the natural frequency of the swing, resonance occurs
- If the driving frequency is slightly lower or higher than the natural frequency, the amplitude will increase but to a lesser extent than if they were equal
- This is because, at resonance, energy is transferred from the driver to the oscillating system most efficiently
- Therefore, at resonance, the driving force transfers the maximum kinetic energy to the system
- In this case, the child will swing the highest when resonance occurs
Pushing a child on a swing is an example of how forced oscillations can produce resonance
Worked example
State and explain whether the following scenarios are examples of free or forced oscillations:
Answer:
(a) Striking a tuning fork
- This is a free vibration
- When a tuning fork is struck, it will vibrate at its natural frequency and there are no other external forces
(b) Breaking a glass from a high-pitched sound
- This is a forced vibration
- The glass is forced to vibrate at the same frequency as the sound until it breaks (when it equals the natural frequency of the glass)
- The frequency of the high-pitched sound is the external driving frequency
(c) The interior of a car vibrating when travelling at a particular speed
- This is a forced vibration
- The interior of the car vibrates at the same frequency as the wheels travelling over a rough surface at a high speed
(d) Playing the clarinet
- This is a forced vibration
- The air from the player's lungs is used to sustain the vibration in the air column in a clarinet to create and hold a sound
- The air column inside the clarinet mimics the vibrations at the same frequency as the air forced into the mouthpiece of the clarinet (the reed). This creates the sound
Exam Tip
Avoid writing 'a free oscillation is not forced to oscillate'. Mark schemes are mainly looking for a reference to internal and external forces and energy transfers. Make sure to include about the amplitude of the oscillations too.
