How to Calculate Water Depth given Average Horizontal Velocity at Node?
Water Depth given Average Horizontal Velocity at Node calculator uses Water Depth = (Standing Wave Height of Ocean*Wavelength)/Average Horizontal Velocity at a Node*pi*Natural Free Oscillating Period of a Basin to calculate the Water Depth, The Water Depth given Average Horizontal Velocity at Node formula is defined as depth parameter influencing the natural free oscillation period, The number of nodes in the basin n does not include the node at the entrance. Water Depth is denoted by D symbol.
How to calculate Water Depth given Average Horizontal Velocity at Node using this online calculator? To use this online calculator for Water Depth given Average Horizontal Velocity at Node, enter Standing Wave Height of Ocean (Hw), Wavelength (λ), Average Horizontal Velocity at a Node (V') & Natural Free Oscillating Period of a Basin (Tn) and hit the calculate button. Here is how the Water Depth given Average Horizontal Velocity at Node calculation can be explained with given input values -> 9.410492 = (1.01*26.8)/49.7*pi*5.5.