It is the Internal carotid and the vertebral arteries. The vertebral arteries join to form the basilar artery which supply the midbrain and the cerebellum. The internal carotid branches divides to form the left and right internal carotids which supply the left and right side of the brain respectively. Hope this helps...feel free to ask if you don't understand. cheers Faith
the basilar artery.
Yes
vertebral arteries
The vertebral arteries merge to form a basilar artery which form the posterior Circle of Willis. The middle cerebral arteries form the rest of the Circle of Willis.
It is the Internal carotid and the vertebral arteries. The vertebral arteries join to form the basilar artery which supply the midbrain and the cerebellum. The internal carotid branches divides to form the left and right internal carotids which supply the left and right side of the brain respectively. Hope this helps...feel free to ask if you don't understand. cheers Faith
The prominence of the basilar tip typically refers to the extent to which the basilar artery extends into the circle of Willis, which is a circulatory anastomosis that supplies blood to the brain. A more prominent basilar tip may suggest variations in the arterial anatomy that could impact blood flow or increase the risk of certain vascular pathologies.
the basilar artery.
Basilar Migraine is a type of migraine that affects the basilar artery of the brain.
"The basilar artery is vital to the brain."
"Basilar" typically refers to the area at the base of an organ or structure, such as the basilar artery in the brain or the basilar part of the skull. It is often associated with providing essential support and connections for the organ or structure.
vertebral arteries pass through foramen magnum and reach the inferior of the brain & unite to from the basilar artery. The vertebral artery supplies the posterior of the brain. Basilar atery branches into posterior cerebral artery & cerebellar arteries that supply the cerebellum & pons. Common carotid arteries divide & the internal carotid supplies structures internal to the skull
Yes
The floor of the cochlea is formed by the basilar membrane, which is a thin, flexible structure that supports the hair cells responsible for detecting sound vibrations. The basilar membrane plays a crucial role in converting sound waves into neural signals that can be interpreted by the brain.
The basilar membrane is found within the cochlea of the inner ear. It plays a crucial role in converting sound vibrations into neural signals that the brain can interpret as sound. The basilar membrane is a key component of the auditory system's process of hearing.
The correct answer is pontine.
basilar artery.