By "bump" do you mean ON? (1mA)
A bump is defined as a rapid transition of the amp meter from a "0" state to a "1" state back to the "0" state.
By "bump" do you mean ON? (1mA)
A bump is defined as a rapid transition of the amp meter from a "0" state to a "1" state back to the "0" state.
On the scam?
You place a pre-order for $25.
If/when it's ready to ship, they send you a notice, which you can decline.
Pay by paypal.
If you don't like it, return it and get a refund from paypal.
The pre-orders by the minnows amount to almost nothing. It’s always been about the Big Buyers.
Now he has vetted the ones with real money to lose.
Now he has vetted the ones with real money to lose.
Who, ISTR, put a deposit in escrow (though the standard conditions dont say that) . They are allowed to test before delivery (RossiSez, of course).
Of course, the economy of the deal depends on the actual lifetime (3 yr warranty = 26,000 hours, spec is 100,000 hours or 11 years).
The economy of the deal is that you get nothing
The economy of the deal is that you get nothing
Fitting all your plug sockets with these devices will certainly reduce your electricity use, especially if you epoxy them in place.
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The above may be of interest to some- I get their free papers on the metal markets,
So how does the Scam Work?
[The Nigerian scam.]
See:
ABSTRACT
False positives cause many promising detection technologies to be unworkable in practice. Attackers, we show, face this problem too. In deciding who to attack true positives are targets successfully attacked, while false positives are those that are attacked but yield nothing.
This allows us to view the attacker’s problem as a binary classification, and use Receiver Operator Characteristic (ROC) curves to analyze the economics. The most profitable strategy requires accurately distinguishing viable from non-viable users, and balancing the relative costs of true and false positives. We show that as victim density decreases the fraction of viable users than can be profitably attacked drops dramatically. For example, a 10× reduction in density can produce a 1000× reduction in the number of victims found. At very low victim densities the attacker faces a seemingly intractable Catch-22: unless he can distinguish viable from non-viable users with great accuracy the attacker cannot find enough victims to be profitable. However, only by finding large numbers of victims can he learn how to accurately distinguish the two.
Finally, this approach suggests an answer to the question in the title. Far-fetched tales of West African riches strike most as comical. Our analysis suggests that is an advantage to the attacker, not a disadvantage. Since his attack has a low density of victims the Nigerian scammer has an over-riding need to reduce false positives. By sending an email that repels all but the most gullible the scammer gets the most promising marks to self-select, and tilts the true to false positive ratio in his favor.
By sending an email that repels all but the most gullible the scammer gets the most promising marks to self-select, and tilts the true to false positive ratio in his favor.
That sentence is a masterpiece.
I just did another screenshot sequence.
10 transitions (0.000 to 0.001 amps) over 18 seconds, average Watts 0.0010
Did you learn this method of measuring current in electronics school?
The mini volume is projected to be reduced to 1 or 2 milliliters.
In the video, the 1 mw prototype looks like ...
Something of 2 milliliter volume is tiny. This will allow the e-cat to be dispensed intraveneously. The e-cat can then be used as an energy elixer or mixed with vaccines in a Covid treatment.
But his 1 mW (milliwatt) prototype is onlyuseful for a watch battery or such.
Them pistons stuck like a nasty welding job in the block was no fun getting them out..
A trashed Engine back to life.
At lease rebuilding a car dose not have biblical problems attached
Seems the needed steps starting with a elec force like Iron and Aluminum +Salt Obsidian with a water bind 'Plaster' maybe.....ect reaction that will
last 20+ years may have been left out.. using rotation weak fields to a strong field to strip away or move - + pulling in H as a binder, voltage
reaction from the trapped rotation field may also be a over looked step.
It would be interesting if the ss mesh coating, having obsidian next to it with a mud mix Iron Aluminum Salt dust in a water suspension cap leading to a
type of coil- 5 to 8 coils around a center fuel post to strip away slowly over time will take some time to build.
interesting to think about though. A core post stil above ground - with-cobalt post mix on the net with fake info may be an old core post...
Getting a tesla coil to work from iron- aluminum= obsidian= salt is also a lot of work for sparks
Seems like old school repairs after steel to aluminum plates used as gussets reinforcements fail over the years when container floors just snap being loaded on a ship.
why they put plastic between the aluminum side rails to the steel cross members with huck bolts and are all steel or all aluminum now.
Salt water was nasty for old style shipping containers using steel with aluminum.
Jupiter temp spike was interesting maybe a new earth like planet will emerge when its done cooking
Did you learn this method of measuring current in electronics school?
Actually, in physics school.
DC current : yes, we had analog ammeters back in those days. Plus voltmeters and calibrated resistors. And slide rules for multiplying or dividing. The DC supply was a roomfull of lead acid batteries in the basement. We'd select the maximum voltage by hooking up an appropriate number of batteries in series - patched to the DC wires at our lab bench. Then we'd step it down with a potentiometer,
W = V*I
Wh = W*hours but it's more convenient to use Wsecs = W*seconds
Mean = SUM(Wsecs)/TotalSeconds
I just plugged in my new meter, and thought of a deficiency in my COP calculation
I used the reported values of current as varying between 0.0 mA and 1.0 mA
But it could actually be as high as 0.999 mA and 1.999 before the lowest digit changes.
Using my last average Watts readings (previously 0.001 watts). Assuming RossiSez 5W gave a COP of 5100.
Using the 0.999 mA gives an average of 0.011W and a COP of 540.
And 0.5 mA gives 0.0.006W and COP 835
Edit: Using my previous best guess of the brightness (2.7W) and the new watt calculation gives a COP in the range of 200 to 500.
I'll try to run a brightness tests tonight to get a tighter range.
WARNING : if you are experimenting with LED and Halogen lights at close range they are VERY BRIGHT.
WARNING : if you are experimenting with LED and Halogen lights at close range they are VERY BRIGHT.
I guess this statement is a very good example of a blinding flash of the obvious.
(sorry Alan Fletcher , could not help myself not making the pun).
Cold Fusion is Back (there's just one problem)
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Roger thinks with some help he can
solve the problem.
I used the reported values of current as varying between 0.0 mA and 1.0 mA
But it could actually be as high as 0.999 mA and 1.999 before the lowest digit changes.
I was under the impression that the least significant digit of an electronics display was typically not very reliable, as they are usually selected to be around the noise floor.
I also learned that sampling such a signal is pretty meaningless statistically. Just because you see a noise "spike" in the signal says nothing about what is happening below that threshold. You would have to know details about the exact form of the signal, noise, etc to make any judgements at all.
I frequently deal with these kinds of problems when I write computer vision algorithms. And I never learned this "boolean state averaging" technique when I studied engineering physics.
Rossi's live stream was interrupted and changed to a different YouTube link. Of course he says this was because of YouTube, not him shutting it down.
I think I know the design of the minisklep now.
There is some kind of a diode/switch, powered but the power supply, which switches on a battery within the device to these really low powered LEDs.
The calculated battery life was getting close to exhausted, so Rossi shut down the video and replaced the battery.
It would be cool if someone could verify the relative brightness before and after the video switchover, but I assumed there are electronic ways to stabilize the output. I am not an electrical engineer, but I have to deal with sensors a lot.
But his 1 mW (milliwatt) prototype is onlyuseful for a watch battery or such.
Actually, watch batteries are around 4 microwatts. 250 times less! I think so, anyway --
Typical watch battery 3 V. 200 mAh = 720,000 milliamp seconds = 720,000,000 microamp seconds. Right? Divide by 3 V = 240,000,000 microwatt seconds. They last about 2 years = 63,070,000 seconds. 240,000,000 microwatt seconds/63,070,000 seconds = 4 microwatts. I think I found online sources saying wristwatches consume 5 or 10 microwatts.
The LEC is still down at the microwatt level, so far.
The lowest power LED I can find is around 5 mW. A cell phone during transmission uses 3 W. Standby power is 0.5 to 1 W.
The LEC is still down at the microwatt level, so far.
magicsound calculated 220 nW/cm2 from the sample he was provided, posted here: