The existing tools to provide 3D properties does not allow the user to determine the mass (weight) and centre of gravity of a group of 3D components. It will only prove the COG and weight for a single 3D body. It odes provide the total volume of a number of individual components if they are grouped, but not the COG, mass or radius of gyration.
It would aid 3D analysis for studies of assembled mechanical components (or architectural feature for that matter) for studies such as lifting studies, etc.
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Alan Boughey
The existing tools to provide 3D properties does not allow the user to determine the mass (weight) and centre of gravity of a group of 3D components. It will only prove the COG and weight for a single 3D body. It odes provide the total volume of a number of individual components if they are grouped, but not the COG, mass or radius of gyration.
It would aid 3D analysis for studies of assembled mechanical components (or architectural feature for that matter) for studies such as lifting studies, etc.
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