Mass of Vessel given Virtual Mass of Vessel Solution

STEP 0: Pre-Calculation Summary
Formula Used
Mass of a Vessel = Virtual Mass of the Ship-Mass of Vessel due to Inertial Effects
m = mv-ma
This formula uses 3 Variables
Variables Used
Mass of a Vessel - (Measured in Newton) - Mass of a Vessel [force], based on the ship’s displacement.
Virtual Mass of the Ship - (Measured in Newton) - Virtual Mass of the Ship/ Vessel is measured as the summation of mass of the vessel and mass of the vessel due to inertial effects.
Mass of Vessel due to Inertial Effects - (Measured in Newton) - Mass of Vessel due to Inertial Effects of the water entrained with the vessel [force].
STEP 1: Convert Input(s) to Base Unit
Virtual Mass of the Ship: 100 Kilonewton --> 100000 Newton (Check conversion here)
Mass of Vessel due to Inertial Effects: 20 Kilonewton --> 20000 Newton (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
m = mv-ma --> 100000-20000
Evaluating ... ...
m = 80000
STEP 3: Convert Result to Output's Unit
80000 Newton -->80 Kilonewton (Check conversion here)
FINAL ANSWER
80 Kilonewton <-- Mass of a Vessel
(Calculation completed in 00.020 seconds)

Credits

Created by Mithila Muthamma PA
Coorg Institute of Technology (CIT), Coorg
Mithila Muthamma PA has created this Calculator and 2000+ more calculators!
Verified by Chandana P Dev
NSS College of Engineering (NSSCE), Palakkad
Chandana P Dev has verified this Calculator and 1700+ more calculators!

12 Mooring Calculators

Undamped Natural Period of Vessel
Go Undamped Natural Period of a Vessel = 2*pi*(sqrt(Virtual Mass of the Ship/Effective Spring Constant))
Effective Spring Constant given Undamped Natural Period
Go Effective Spring Constant = ((2*pi)^2*Virtual Mass of the Ship)/Undamped Natural Period of a Vessel^2
Virtual Mass of Vessel given Undamped Natural Period
Go Virtual Mass of the Ship = (Undamped Natural Period of a Vessel^2*Effective Spring Constant)/(2*pi)^2
Individual Stiffness of Mooring Line
Go Individual Stiffness of a Mooring Line = Axial Tension or Load on a Mooring Line/Elongation in the Mooring Line
Elongation in Mooring Line given Individual Stiffness of Mooring Line
Go Mooring Line Elongation = Axial Tension or Load on a Mooring Line/Individual Stiffness of a Mooring Line
Axial Tension or Load given Individual Stiffness of Mooring Line
Go Axial Tension or Load on a Mooring Line = Mooring Line Elongation*Individual Stiffness of a Mooring Line
Elongation in Mooring Line given Percent Elongation in Mooring Line
Go Elongation in the Mooring Line = Length of Mooring Line*(Percent elongation in a Mooring Line/100)
Length of Mooring Line given percent Elongation in Mooring Line
Go Length of Mooring Line = Elongation in the Mooring Line/(Percent elongation in a Mooring Line/100)
Percent Elongation in Mooring Line
Go Percent elongation in a Mooring Line = 100*(Elongation in the Mooring Line/Length of Mooring Line)
Mass of Vessel due to Inertial Effects of Water entrained with Vessel
Go Mass of Vessel due to Inertial Effects = Virtual Mass of the Ship-Mass of a Vessel
Mass of Vessel given Virtual Mass of Vessel
Go Mass of a Vessel = Virtual Mass of the Ship-Mass of Vessel due to Inertial Effects
Virtual Mass of Vessel
Go Virtual Mass of the Ship = Mass of a Vessel+Mass of Vessel due to Inertial Effects

Mass of Vessel given Virtual Mass of Vessel Formula

Mass of a Vessel = Virtual Mass of the Ship-Mass of Vessel due to Inertial Effects
m = mv-ma

What is mooring in shipping?

Mooring is a procedure to anchor the ship to a fixed or floating element and keep it connected during loading or unloading operations. Safe mooring must withstand several forces, such as wind, the current, the tide and waves.

How to Calculate Mass of Vessel given Virtual Mass of Vessel?

Mass of Vessel given Virtual Mass of Vessel calculator uses Mass of a Vessel = Virtual Mass of the Ship-Mass of Vessel due to Inertial Effects to calculate the Mass of a Vessel, The Mass of Vessel given Virtual Mass of Vessel, for a ship in surge, ma is approximately 15 percent of the actual mass m, which is based on the ship’s displacement. Mass of a Vessel is denoted by m symbol.

How to calculate Mass of Vessel given Virtual Mass of Vessel using this online calculator? To use this online calculator for Mass of Vessel given Virtual Mass of Vessel, enter Virtual Mass of the Ship (mv) & Mass of Vessel due to Inertial Effects (ma) and hit the calculate button. Here is how the Mass of Vessel given Virtual Mass of Vessel calculation can be explained with given input values -> 0.08 = 100000-20000.

FAQ

What is Mass of Vessel given Virtual Mass of Vessel?
The Mass of Vessel given Virtual Mass of Vessel, for a ship in surge, ma is approximately 15 percent of the actual mass m, which is based on the ship’s displacement and is represented as m = mv-ma or Mass of a Vessel = Virtual Mass of the Ship-Mass of Vessel due to Inertial Effects. Virtual Mass of the Ship/ Vessel is measured as the summation of mass of the vessel and mass of the vessel due to inertial effects & Mass of Vessel due to Inertial Effects of the water entrained with the vessel [force].
How to calculate Mass of Vessel given Virtual Mass of Vessel?
The Mass of Vessel given Virtual Mass of Vessel, for a ship in surge, ma is approximately 15 percent of the actual mass m, which is based on the ship’s displacement is calculated using Mass of a Vessel = Virtual Mass of the Ship-Mass of Vessel due to Inertial Effects. To calculate Mass of Vessel given Virtual Mass of Vessel, you need Virtual Mass of the Ship (mv) & Mass of Vessel due to Inertial Effects (ma). With our tool, you need to enter the respective value for Virtual Mass of the Ship & Mass of Vessel due to Inertial Effects and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!