Nice video... but please do same analysis for vertical pipe when it is connected at bottom of tank and also for different types of fluid whose densities are different so that we can judge that does velocity at outlet of pipe actually depends on density of fluid or not...???
Thanks for your comment! I think we all prefer problems that are in metric units, but imperial units are widely used in industry, especially in the United States, so it is still important for engineers to be familiar with both systems of units and to be able to convert between the two. That's why we try to work some problems in imperial units and others in metric.
SG Hg * Specific weight of water = Specific weight of Hg. Combined terms. (3:23)
Nice video... but please do same analysis for vertical pipe when it is connected at bottom of tank and also for different types of fluid whose densities are different so that we can judge that does velocity at outlet of pipe actually depends on density of fluid or not...???
NICE VIDEO. What if I dont have the pressure in the outlet?
what if the tank is close?
What happened to the Specific Gravity term Hg??
How come 2feet not taken into account for height giving 8 feet?
Imperial units🤢
It is scary to see universities still teach primarily British units as the professor called up constants very casually
Thanks for your comment! I think we all prefer problems that are in metric units, but imperial units are widely used in industry, especially in the United States, so it is still important for engineers to be familiar with both systems of units and to be able to convert between the two. That's why we try to work some problems in imperial units and others in metric.
Do you work in the chemical/manufacturing industry in the US as your primary job? If not do not make this type of arrogant statement.
Well what he says is true alot of chemical plants around here, living in south Carolina, use psi, feet and btu.
LeanChemE is unfortunately right : edition.cnn.com/TECH/space/9909/30/mars.metric.02/