make sure there is not a slight break in the circuit
The buzzer will not work because there is a break in the circuit, the buzzer wont make any sound at all and it will do nothing else.
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.
Amplitude = "Loudness" In that a direct increase in amplitude will cause the sound to be "louder".
No,sound is louder and clearer when it travels through air.
if you have a sound and its not bothering you but if it comes louder and louder this is what you need 2 do you have to move an dmake sure you ears are not enfected ----
i dont know
sound is louder in air because it travels and when you are in water you can hear but it is faint because the water in you ears
Sure. If you want sound when the circuit is energized, use a buzzer. If you want a visual indication when the circuit is energized, use an LED.
sound is not louder in water because of the water that is in your ears and the sound would be very faint.
The buzzing sound made by insects is the result of wing movement. The faster the wings move, the louder the buzzing sound.
The buzzer will not work because there is a break in the circuit, the buzzer wont make any sound at all and it will do nothing else.
take two cells a buzzer and a light join the buzzer with wire and the light bulb with the buzzer and the cell
Buzzers in a circuit create a warning and to see if the circuit is running or not.
It powers the wires, thus powering the light or sound buzzer.
The onomatopoeia for a buzzer can be "buzz", "bzz", or "bzzt". (The louder buzzer at sports events is actually a horn.)
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.
Mechanical and sound energy.