UnspeakableAnointin
Neurons and synapses relay information between the brain and eyes and ears. Neurons take in signals from your eyes and ears, and the electrical impulses are transferred to the brain to be processed into thought and sensation. The brain also sends impulses to the eyes and ears to make them function.
Wiki User
∙ 10y agoAnonymous
Midbrain
Most of the brain is above the ears and reaches down about as far as the ear lobes but in common language we think of the brain as being between the ears because it is in the skull and the ears are on opposite sides of the skull.
The medulla relays auditory information from the cochlea to higher centers in the brain, such as the thalamus and auditory cortex. It plays a crucial role in processing and interpreting sound signals received from the ears.
Only if there is no brain between the ears.
The idiom "to have something between the ears" means to be intelligent or smart. It implies that someone has a good understanding or knowledge of a subject.
The ears are lateral to the brain. The brain is more towards the center of the body, so it is medial to the ears.
The temporal lobe processes auditory information in the brain. It is located on the sides of the brain, just above the ears, and is responsible for interpreting sounds and language.
The nervous system, specifically the sensory organs such as the eyes, ears, skin, nose, and tongue, transmit information to the brain. Signals, in the form of electrical impulses, travel along nerves to deliver sensory information to the brain for processing.
Ears are connected to the brain through the auditory nerve, which carries signals from the inner ear to the brain for processing. This nerve transmits sound information as electrical impulses to the brain, allowing us to perceive and interpret sounds.
The auditory cortex is located in the brain, and is responsible for processing auditory information received from the ears.
Your ears determine sound direction through a process called binaural hearing. The brain analyzes differences in arrival time, loudness, and frequency of sound signals between the two ears to localize sound sources. This information, along with previous experiences, helps determine the direction of sound.
Sensory neurons are responsible for relaying information from the environment to the brain. These neurons carry signals from sensory organs such as the eyes, ears, skin, and taste buds to the brain for processing and interpretation.
When sounds and their reflections reach your ears at different times, it creates an echo. This delay between the original sound and its reflection is typically noticeable when there is a distance between the sound source and the reflecting surface. The brain processes this delayed information, allowing us to perceive the echo effect.