A tweeter.
An increase in a sound's pitch corresponds to an increase in its frequency. Pitch is determined by the frequency of sound waves, where higher frequencies produce higher pitch sounds and lower frequencies produce lower pitch sounds.
Most living beings, such as chickens and humans, don't produce a single sound frequency; rather, the sound emitted is a mix of frequencies. That's why the sounds of each creature sound different.
High frequency sound waves can shatter glass if powerful enough. This happens because the glass vibrates at the same frequency as the sound waves on the outer surface of the glass, but at lower frequencies inside the glass. This causes interference in the waveforms moving through the glass, which stress the glass, causing it to break. This is a different effect than when a single sharp sound, such as an explosion, pushes the glass beyond its breaking point.
The pitch of a sound is determined by its frequency. A high-pitched sound has a higher frequency, while a low-pitched sound has a lower frequency. The unit of measurement for frequency is hertz (Hz).
Whales produce sound through structures in their bodies called "phonic lips," which vibrate and emit sounds. These sounds can range from low-frequency rumblings to high-frequency clicks and whistles, depending on the species. Whales use vocalizations for communication, navigation, and locating prey in their underwater environments.
A woofer is the part of a loudspeaker designed to produce low frequency sounds and its name comes from the sound a dog makes. This is complemented by and contrasts with a 'tweeter' which produces the high frequency sounds.
Allowing your oscillator is powerful enough to "drive" the speaker it will produce sound as determined by the frequency setting. There are limitations of course, but they are minor technical not general.
A loudspeaker changes electrical energy into sound energy by converting the electrical signal into vibrations that move the speaker cone and produce sound waves.
A loudspeaker emits sound by converting electrical signals into mechanical energy, causing a diaphragm or cone to vibrate. These vibrations create sound waves in the air that we perceive as sound. The frequency and intensity of the vibrations determine the pitch and volume of the sound produced.
That machine is called a speaker or a loudspeaker. It converts electrical signals into sound waves by vibrating a diaphragm to produce audible sound.
In a loudspeaker, electrical energy is converted into mechanical energy to produce sound waves. In a microphone, sound waves cause a diaphragm to vibrate, converting the mechanical energy into electrical signals.
The frequency of a sound wave is directly related to the pitch of a sound. Higher frequency sound waves produce higher pitch sounds, while lower frequency sound waves produce lower pitch sounds.
In a loudspeaker, electrical energy from an amplifier is converted into mechanical energy in the form of sound waves. This conversion occurs through the interaction of the electrical current with a magnet and a diaphragm, which causes vibrations that produce sound.
A conventional loudspeaker does not produce ultrasonics because its diaphragm does not vibrate at high frequencies. A piezo-electric loudspeaker can be designed to emit sound at many tens or hundreds of kHz; even a few MHz.
Pitch
The driver component of a loudspeaker produces sound waves. It consists of a diaphragm attached to a voice coil that moves back and forth in response to electrical signals, causing the diaphragm to vibrate and produce sound waves.
A loudspeaker is a transducer that converts electrical energy to sound energy.