the fourth ventricle
An Aqueduct is the answer. And to embellish this a bit more, I believe there is an aqueduct in Rome that still functions. Perhaps it has been closed down, but years ago when I was a student studying ancient Rome, the aqueduct was working.
sierra nevada via is the aqueduct that brings water to los angles
The aqueduct brought fresh water to Rome.The aqueduct brought fresh water to Rome.The aqueduct brought fresh water to Rome.The aqueduct brought fresh water to Rome.The aqueduct brought fresh water to Rome.The aqueduct brought fresh water to Rome.The aqueduct brought fresh water to Rome.The aqueduct brought fresh water to Rome.The aqueduct brought fresh water to Rome.
If you are referring to making a model Roman aqueduct, you can find websites which tell you.
viaduct
The mesencephalic duct, also known as the aqueductus mesencephali, aqueduct of Sylvius or the cerebral aqueduct and contains cerebrospinal fluid
The fourth ventricle is the space that fluid from the cerebral aqueduct flows. The cerebral aqueduct is a part of the ventricle system in the brain.
The fourth ventricle is the space that fluid from the cerebral aqueduct flows. The cerebral aqueduct is a part of the ventricle system in the brain.
The fourth ventricle is the space that fluid from the cerebral aqueduct flows. The cerebral aqueduct is a part of the ventricle system in the brain.
The cerebral aqueduct is the narrow conduit, between the third and the fourth ventricles in the midbrain, that conveys the cerebrospinal fluid and thereby prevents its potentially deadly buildup in the brain. Also called the aqueduct of Sylvius.
The cerebral aqueduct (also known as the aqueduct of Sylvius) is the canal that connects the third and fourth ventricles of the brain. It is a narrow canal located in the midbrain, allowing for the flow of cerebrospinal fluid between these two ventricles.
The cerebral aqueduct (aqueduct of Sylvius) connects the third and fourth ventricles of the brain. It is a narrow channel located in the midbrain that allows for cerebrospinal fluid to flow between these two ventricles.
An irregular fluid flow refers to a fluid motion that is not consistent or smooth, characterized by fluctuations and turbulence in the flow pattern. It can be caused by factors such as obstacles in the fluid's path, changes in the flow velocity, or variations in fluid properties. Irregular fluid flow can affect the efficiency and performance of systems where fluids are involved, such as pipelines or aircraft wings.
No, the choroid plexus is a structure within the ventricles of the brain that produces cerebrospinal fluid (CSF). The cerebral aqueduct is a narrow channel connecting the third and fourth ventricles, and it does not contain the choroid plexus.
An aqueduct can be constructed effectively by carefully planning the route, ensuring a steady flow of water, using durable materials, and maintaining proper slope for gravity to move the water. Regular inspections and maintenance are also important to ensure the aqueduct functions properly.
Adhesion can cause fluid molecules to stick to the walls of the container, which can create friction and resistance to the flow of the fluid. This can result in reduced flow rates and turbulence in the fluid flow system.
Fluid flow can be controlled by adjusting parameters such as pressure, flow rate, and pipe size. Valves can also be used to regulate or stop the flow of fluid through a system. Additionally, controlling the temperature and viscosity of the fluid can influence its flow behavior.