This is a ^ Cell No pst H2O2 Fuel Cell.
There are no Loakes to speak of and it was blowing up theis ballon this particullar cell took 1 table spoon of baking soda, it was jsut a maby pamby one I threw to geather. It only took an hour and a half to fill this ballon lol.
Hmm Why Buy Helium when oyu can Own floating ballons. I am sure larger cells can indeed blow up the ballons faster
Wait tll you see part 2
I would like to ad something.
out of all my experiments , I probably have not went with larger washers as I am testing .
I do plan on purchasing larger washers then the ones I am using. I am guessing that the smaller washers are hindrances in production as there is less surface.
and the "toilette" bowel washers take up at least more then half the stainless steel washers creating more resistance then any thing.
I speak of this because it appears that the larger the items used in producing HHO it seems the more that can be produced . In this case there is one unique property here that is at work.
These cells can use the same Voltage to produce H2 O2 .
You can have a cell the size of a half quart and still make H2O2 gas .
How ever one gets less gas.
the larger the container and the cell plating means more gas.
this is interesting because, one would think more work is needed to make more gas when in essence that may not be the case. one could chose to add more Voltage and produce more H2O2.
There is also another remarkable thing that i would like to take note on .
In a resting state the H2O2 generator produces gas normally. In a Positive Pressure state, it produces less while in a negative pressure state such as a Vacuum, it can produce more. but not more then it can replenish.
so the cell had to compensate for atmospheric changes as I was filling the balloon, the more Atmospheric pressure that took place, the slower the ballon would fill. where as when I placed the hose in a sealed bottle and created a vacuum or negative atmospheric pressure the cell made more gas to fill the Void. So with that in mind, how would altitude effect the cell? what it the air was thiner like as if one were at the summit of Mount hood VS it being in Hell Valley or the lowest place on earth with out going under water. then my next question is what if the cell was placed oh five miles under the ocean floor how would it react?
I would be interesting to see how this cell would do with other stresses added to it other then a cars engine..
I want to see the impossible I guess.. Could one build this thing to create a vehicle that could lift the person off the ground? I ask this question as I just lost a balloon as it sailed. Unlike helium I could feel a greater Pulling effect..
Once lift is acquired, could it be maintained at a stable altitude in which one could pilot a type of aircraft or something of a modern day blimp?
i would think with todays technology it could be made safer.
and I am thinking of a smaller vehicle for a family of 4 and 2 dogs
has any one tried this...and lived?
I ask this because well forget cars why mess with traffic when one can well, make there own roads? it seems to be a crazy idea. I haven't the money or resources to try such a project. I also understand that there would need to be a separate fuel cell or engines that would control the steering of the craft. I guess I had watched to many sci-fi movies.
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Balloon in Liquid Nitrogenby SMUPhysics1,139 views
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