The classic "buzzer" uses an electromagnet as do non-electronic doorbells. The electric current is used to create a magnetic field that attracts a steel diaphragm in the buzzer. As it moves, the diaphragm pulls open the circuit and falls back to its starting position, which powers the magnet again to repeat the cycle. Depending on the circuit, several dozen motions and disconnects every second by the steel diaphragm are what create the buzzing sound.
A buzzer is a relay and a switch. Current activates the solenoid (and you can hear it hit its limits) and opens a switch which relaxes the solenoid. Cycle repeats until current stops.
With sound
Input energy = output energy + losses
Where the energy enters the system.
For an electric buzzer, it's electrical energy.
Mechanical and sound energy.
The classic "buzzer" uses an electromagnet as do non-electronic doorbells. The electric current is used to create a magnetic field that attracts a steel diaphragm in the buzzer. As it moves, the diaphragm pulls open the circuit and falls back to its starting position, which powers the magnet again to repeat the cycle. Depending on the circuit, several dozen motions and disconnects every second by the steel diaphragm are what create the buzzing sound.
output cuz it got swag
Energy release is to condensation as energy input is to vaporization. Vaporization requires energy input to happen, while condensation releases energy.
A buzzer is a relay and a switch. Current activates the solenoid (and you can hear it hit its limits) and opens a switch which relaxes the solenoid. Cycle repeats until current stops.
With sound
The energy input is always greater than energy output.
Input energy = output energy + losses
The movement of molecules without the input of energy is passive transport.
Where the energy enters the system.
Electrical energy