The stapes, the smallest bone in the human body, transmits sound vibrations from the middle ear to the cochlea in the inner ear. It functions to amplify and transfer sound waves to the fluid-filled cochlea.
No, in a transverse wave, the vibrations of the medium are perpendicular to the direction of wave travel. The particles of the medium oscillate up and down or side to side as the wave passes through.
The vocal folds are attached to the larynx, which is commonly known as the voice box. The vocal folds are located within the larynx and are responsible for producing sound when air passes through them.
When an electrical current passes through the voice coil attached to the cone, it creates a varying magnetic field that interacts with a fixed magnet. This interaction causes the voice coil (and thus the cone) to move back and forth rapidly, which pushes air molecules and produces sound waves that we hear as sound.
When a train passes over a bridge, the sound gets amplified due to the solid structure of the bridge reflecting and transmitting the vibrations created by the train. This amplifies the sound waves, making them seem louder to those nearby.
because of the nerves, it passes through the nerves
The stapes, the smallest bone in the human body, transmits sound vibrations from the middle ear to the cochlea in the inner ear. It functions to amplify and transfer sound waves to the fluid-filled cochlea.
sacral nerves
nerves
The outer ear
The idiot who posted Auditory Nerve is an idiot its, Stirrup!
The nerves which passes through the jugular foramen are: glossopharyngeal nerve(IX), vagus nerve(X) and accessory nerve(XI).
The human ear has three main sections, which consist of the outer ear, the middle ear, and the inner ear. Sound waves enter your outer ear and travel through your ear canal to the middle ear. The ear canal channels the waves to your eardrum, a thin, sensitive membrane stretched tightly over the entrance to your middle ear. The waves cause your eardrum to vibrate. It passes these vibrations on to the hammer, one of three tiny bones in your ear. The hammer vibrating causes the anvil, the small bone touching the hammer, to vibrate. T he anvil passes these vibrations to the stirrup, another small bone which touches the anvil. From the stirrup, the vibrations pass into the inner ear. The stirrup touches a liquid filled sack and the vibrations travel into the cochlea, which is shaped like a shell. Inside the cochlea, there are hundreds of special cells attached to nerve fibers, which can transmit information to the brain. The brain processes the information from the ear and lets us distinguish between different types of sounds.
The human ear has three main sections, which consist of the outer ear, the middle ear, and the inner ear. Sound waves enter your outer ear and travel through your ear canal to the middle ear. The ear canal channels the waves to your eardrum, a thin, sensitive membrane stretched tightly over the entrance to your middle ear. The waves cause your eardrum to vibrate. It passes these vibrations on to the hammer, one of three tiny bones in your ear. The hammer vibrating causes the anvil, the small bone touching the hammer, to vibrate. T he anvil passes these vibrations to the stirrup, another small bone which touches the anvil. From the stirrup, the vibrations pass into the inner ear. The stirrup touches a liquid filled sack and the vibrations travel into the cochlea, which is shaped like a shell. Inside the cochlea, there are hundreds of special cells attached to nerve fibers, which can transmit information to the brain. The brain processes the information from the ear and lets us distinguish between different types of sounds.
The human ear has three main sections, which consist of the outer ear, the middle ear, and the inner ear. Sound waves enter your outer ear and travel through your ear canal to the middle ear. The ear canal channels the waves to your eardrum, a thin, sensitive membrane stretched tightly over the entrance to your middle ear. The waves cause your eardrum to vibrate. It passes these vibrations on to the hammer, one of three tiny bones in your ear. The hammer vibrating causes the anvil, the small bone touching the hammer, to vibrate. The anvil passes these vibrations to the stirrup, another small bone which touches the anvil. From the stirrup, the vibrations pass into the inner ear. The stirrup touches a liquid filled sack and the vibrations travel into the cochlea, which is shaped like a shell. Inside the cochlea, there are hundreds of special cells attached to nerve fibers, which can transmit information to the brain. The brain processes the information from the ear and lets us distinguish between different types of sounds.
Air passes over the vocal chords, causing them to vibrate. The vibrations make noises which we interpret as words and sounds.
A material that something passes through. For example vibrations traveling through a metal rod. The metal rod is the medium.