I think you are wrong about the direction of rotation in the northern and southern hemispheres. they are the opposite of what you stated in the video. In the northern hemisphere, water and air rotate counter-clockwise and in the southern one, they do clockwise.
Does it have mass? Then it will register. The density of air is 800x lower than the density of water - expect a small signal. You can even measure e.g. carbonation (gases dissolved in liquid) on a sensitive CMFM.
In the merry-go-round animation, the camera point of view presented (stationary, outside of the merry-go-round) would show the ball moving in a straight line. The ball would seem to curve only in the boys' point of view of view. In other words, the camera should be rotating along side the boys for the curve displayed to be correct.
Play it at 0.75speed and you will understand it better :)
How to convert "Phase Shift" to "Mass Flow Rate"? Help me, pl!!
how to clean it if it is clogged ?
I think you are wrong about the direction of rotation in the northern and southern hemispheres. they are the opposite of what you stated in the video. In the northern hemisphere, water and air rotate counter-clockwise and in the southern one, they do clockwise.
Dear sir ,
If air ( vapor ) flow come back & back pass to mass flow meter what effect we will see
Does it have mass? Then it will register. The density of air is 800x lower than the density of water - expect a small signal. You can even measure e.g. carbonation (gases dissolved in liquid) on a sensitive CMFM.
In the merry-go-round animation, the camera point of view presented (stationary, outside of the merry-go-round) would show the ball moving in a straight line. The ball would seem to curve only in the boys' point of view of view. In other words, the camera should be rotating along side the boys for the curve displayed to be correct.