Multiply the velocity in cm/s by the cross section area of the flow in sq cm.
A cylinder has a circular cross section that is parallel to its base.
It is possible, depending on what you do know. If you have the radius, you can work out the cross sectional area. Measure the volume - by the displacement method. Then volume/cross section = height.
trapezoidal cross section
Every cross-section of a sphere is a circle.
The area velocity method is a commonly used technique in open channel flow measurement. It involves measuring the velocity of flow at different points in the channel cross-section and integrating these velocities to determine the flow rate. By multiplying the flow rate by the cross-sectional area of the channel, the method can calculate the volume of fluid passing through the channel over time.
Multiply the velocity in cm/s by the cross section area of the flow in sq cm.
To find the acceleration of a particle using the vector method, you can use the equation a = r x (w x v), where "a" is the acceleration, "r" is the position vector, "w" is the angular velocity vector, and "v" is the velocity vector. The cross product (x) represents the vector cross product. By taking the cross product of the angular velocity vector with the velocity vector and then multiplying the result by the position vector, you can find the acceleration of the particle.
A cylinder has a circular cross section that is parallel to its base.
Not a right cross-section.
yes it is
It is possible, depending on what you do know. If you have the radius, you can work out the cross sectional area. Measure the volume - by the displacement method. Then volume/cross section = height.
cross-section of a root
Yes a prism can have a square cross-section
In incompressible fluid density is same because velocity gradient is same on every layer of liquid at any cross section.
No, a cube cannot have an octagonal cross-section.
The cross section can be a triangle, rectangle or a hexagon.