Static Electricity part two Conduction-Induction // Homemade Science with Bruce Yeany

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Homemade Science with Bruce Yeany

Homemade Science with Bruce Yeany

Күн бұрын

Пікірлер: 91
@gabor6259
@gabor6259 6 жыл бұрын
By far the best Coca-Cola commercial I've ever seen.
@4k60-i1r
@4k60-i1r 6 жыл бұрын
the coca cola sweetner It turns into insecticide when it touches stomach acid, good luck
@V0YAG3R
@V0YAG3R 5 жыл бұрын
cheese wine Awesome! Coke®️ kills bugs in our stomachs. I will only drink CocaCola®️ from now on. Thanks for the tip 👌🏻
@gregellis8672
@gregellis8672 7 жыл бұрын
I'm so glad I subscribe to this channel thanks again Bruce for a big smile
@ikarienator
@ikarienator 7 жыл бұрын
What a brilliant demonstrator! I think my physics teacher was doing it wrong...
@TunipsPrime
@TunipsPrime 4 жыл бұрын
I'm a physics teacher, and I think I'm doing it wrong. This is amazing! Especially the DIY Van De Graaf
@evandroandrade4909
@evandroandrade4909 7 жыл бұрын
keep with the great work, I love the videos/classes.
@Neuronowy
@Neuronowy 7 жыл бұрын
I love your videos, it's great that you share it with us. There is so much sh*t on internet but here i can learn something i could not learn at school. Thanks and greetings from Poland.
@yevrahas
@yevrahas 7 жыл бұрын
Fantastic video! The giant Franklin's Bell is a sparktacular demonstration.
@3D.EXPERIMENTs
@3D.EXPERIMENTs 4 жыл бұрын
Cool idea, I will definitely repeat this experience! Like!
@karloshebron7614
@karloshebron7614 7 жыл бұрын
Subbed last year (15/07/16) at 5k. now you're 93k! Really amazing work.
@michaeltovrea7947
@michaeltovrea7947 7 жыл бұрын
great stuff thanks for sharing
@Safexscape
@Safexscape 7 жыл бұрын
You sir, are wonderful. Thank you for genuinely teaching; the way I did not have the privilege of learning from.
@kallielias7672
@kallielias7672 7 жыл бұрын
1:26 The physics of love
@joselozano3042
@joselozano3042 7 жыл бұрын
OMG! I want a teacher like you!😀😀😀
@jimparsons6803
@jimparsons6803 10 ай бұрын
Interesting and thanks. Read, during my High School Physics course, about "atom smashers" using electrostatic charges to accelerate protons.
@arturoangel3834
@arturoangel3834 7 жыл бұрын
i wish my teacher put this much work in when i was in highschool
@MakeScienceFun1
@MakeScienceFun1 7 жыл бұрын
It's shocking how strong the electrostatic force is!
@DaffyDaffyDaffy33322
@DaffyDaffyDaffy33322 7 жыл бұрын
How do you know which materials will charge positive or negative from friction of fabric? Does the type of fabric matter?
@YeanyScience
@YeanyScience 7 жыл бұрын
Yes, check my previous video on the triboelectic series
@Ttreb94
@Ttreb94 11 ай бұрын
Hey Bruce, I’m a high school teacher in ID. Do you have plans and materials to make the van de graff generator with the can on top? That demo is great!
@YeanyScience
@YeanyScience 11 ай бұрын
send me an email at Bgoknee@comcast.net
@manudehanoi
@manudehanoi 7 жыл бұрын
thanks, thumbs up for the low tech comprehensive demo
@alcyonem4528
@alcyonem4528 7 жыл бұрын
I'm your big fan on Korea. thanks for you making this interesting videos.
@YeanyScience
@YeanyScience 7 жыл бұрын
thank you, great to hear from someone from Korea
@M3T4LLik4
@M3T4LLik4 7 жыл бұрын
이주영 Too bad teachers in Korea lecture most of the time and students have to sit and take notes all day :(
@MarekPhysicsFunhouse
@MarekPhysicsFunhouse 4 жыл бұрын
Where are you located? I can never get these kinds of things to work in Texas - we have such high humidity. But these are amazing!
@carultch
@carultch 2 жыл бұрын
His classroom is in Pennsylvania. It helps being in a cold climate where you need to heat the room in January/February to do these experiments, because heating the air lowers the relative humidity. Dealing with humid weather in September is a lot more challenging to do static electric experiments.
@crashjohnny_
@crashjohnny_ 7 жыл бұрын
I love your videos! You are the best!
@andreisabe
@andreisabe 7 жыл бұрын
Great videos as always. Why do furry materials have such polarizing capacity? Thanks for sharing.
@judgeomega
@judgeomega 7 жыл бұрын
when i was in high school, we used balloons in an experiment. i went off curriculum and did a test of my own; i put a balloon on the desk between my hands. without moving or blowing i was able to bounce the balloon left and right from one hand to the other by increasing blood flow to alternating hands.
@YeanyScience
@YeanyScience 7 жыл бұрын
that's awesome, I never heard of that before.
@kakkinefatta
@kakkinefatta 3 жыл бұрын
She is a great person!
@waelsadek81
@waelsadek81 3 жыл бұрын
Why electrostatic conduction didn't happen between the balloon and wall in the previous video ?
@TheBlackbirdii
@TheBlackbirdii 6 жыл бұрын
i wish i had a cool physics teacher like him :(
@realizejust415
@realizejust415 3 жыл бұрын
As for the electrical discharge, when the body rubs with the carpet, it loses electrons, and when the body touches any metal surface close to it, such as a door handle, for example (the bonding forces of electrons are weak) the electrons will move from the metal surface of the human body to compensate for the lack of electrons in it. The question is why does a positive charge not appear on the surface A metal that has lost its electrons?
@XFourty7
@XFourty7 7 жыл бұрын
Awesome video as always!.. I was wondering, does the conductivity of a material also effect its rate of induction? eg; Using Copper/Gold vs Aluminum. I want to guess it does, but I am not extremely familiar with induction... mostly thermal / electrical conductive properties. Also not suggesting you try it, I imagine gold or even copper foil isn't cheap. :P Keep up the great work!
@HauntedTheTruth
@HauntedTheTruth 4 жыл бұрын
it is possible with a large amount of static electric to move large objects such as a ladder?
@carultch
@carultch 2 жыл бұрын
Ultimately, that is exactly what contact forces in general do. Every force other than gravity that is familiar to you at the macroscopic level, is ultimately a manifestation of a electromagnetism. Compression forces are outermost electron repulsions, and attraction forces are intermolecular chemical bonds that depend on opposite charges attracting. But I get what you are saying, whether it is possible to make a body's overall charge able to move a ladder. It is possible, just not practical to do with a person's strength generating the charged bodies. It works better on small mass objects, so you don't need to relocate nearly as many electrons to make interesting results happen.
@HauntedTheTruth
@HauntedTheTruth 2 жыл бұрын
@@carultch thanks its all I have to go by at the moment. I've been trying to relate things in physics to how things in the paranormal work. Other than the obvious wind, vibration etc I've witnessed and captured ladders moving, items coming away from tables and go through the air etc etc and on each occasion I have gotten high reading of EMF so all I can say is there is a charge there but how is beyond me
@M3T4LLik4
@M3T4LLik4 7 жыл бұрын
Bruce, I have struggled to get acetate strips and vinyl strips on Amazon. Any chance you remember how you purchased your materials?
@YeanyScience
@YeanyScience 7 жыл бұрын
HI Blake, originally I purchased some through a science supply catalog, (not sure which). When I needed more I bought some vinyl and acetate sheets through a craft store and cut them to the size I wanted. I will check around and see what I can find
@daviddavids2884
@daviddavids2884 7 жыл бұрын
thanks for posting. some thoughts; have not watched pt1. was just wondering, how many watts does a vandegraff consume. i have wondered what makes static electricity static. is it because there is near zero amperage. even though it is powerful, is lighting considered to be a product of static electricity. is the 'lifter' effect legit. if so, a demo might be interesting. cheers.
@M3T4LLik4
@M3T4LLik4 7 жыл бұрын
To my understanding, static electricity just means "stationary" or not moving/changing. Objects can build up a charge of static electrons to the point of saturation. Naturally electrons repel one another and hate having to be so close to their neighbors. Objects can continue to "collect" static electrons or charge so long as the object gaining the charge has a lower potential than what is delivering the charge. In other words, objects are constantly exchanging free electrons all the time. The clouds for instance, get many of these "free electrons" and build a static/non-flowing charge. Once the potential or "desire" for these electrons to repel/spread apart from their electron neighbors grows exceeding large, they create an ion highway to the Earth which has ample space for the electrons to spread apart. This process of using the Earth as a means of spreading out is called . grounding. Lightning is just a ridiculous amount of static electrons that built up a charge in a cloud and created a pathway to the ground to spread out. The dangerous part of lighting isn't the voltage (potential difference or the "desire" to flow/move) it's the volume of electrons flowing during the duration of movement. All of those electrons discharge in an instant. Causing an intense amount of friction due to "collsions" with the air molecules through which they flow. As you know electrons are high energy particles, so they transfer some.of their energy to these gas molecules on the way down to the ground which causes them to ionized and release photons of light which is the visible "lightning bolt". Thunderstorms are an incredible display of the forces that govern nature!! In summation. Static charges don't flow until the potential to flow is great that the electrons elect to flow through things like air (which they really don't flow well through to begin with). As they flow, they create a current, and the higher this current, the more volume of electrons there are flowing. We measure this as amperage.
@vikramchary9778
@vikramchary9778 3 жыл бұрын
Sir please solve my doubt sir- which is how the insulator losses and gains the electrons when it is tightly bonded with the nucleus to become charge
@Quart47
@Quart47 7 жыл бұрын
Bruce Yeany i have got question for you is so called "superconductive magnetic energy storage" actually possible ?
@energycrafts8206
@energycrafts8206 7 жыл бұрын
Another great video. Around minute 5:29 you said that the aluminum foil gives up its electrons to the positive charged generator and the foil acquires more from the environment to reach equilibrium. Is this right? From many old 100 year plus articles, I have seen it said rather that the neutral foil is attracted to the positive generator by induction first. Then as the aluminum foil touches the positive generator, by conduction the positive generator will charge (and lose some positive potential) the aluminum foil positive. As they are both at the same polarity the foil is free to repel away. Now the aluminum foil will lose positive charge quickly thru leakage at sharp points to the air and becomes neutral relative to the environment. Where the foil is again attracted and the cycle continues. I think this is a case of positive charge dissipation to the environment not electron acquisition from the environment. You could do this in a vacuum chamber where there is far fewer free electrons and I would expect the same results except the dissipation may be slower. If I am wrong feel free to point out my misunderstanding. Always open to learning.
@YeanyScience
@YeanyScience 7 жыл бұрын
Hello EnergyCrafts, my understanding of what's going on (and if I am wrong, I'm also happy to have it corrected) starts with the generator which is positively charged. When we look at metal conductors, the positive charges or protons are locked in place in the nuclei and unable to to move, to do so would actually change the mass of the material. It is the electrons that are moveable and alter the charge on a material. We agree that the Aluminum foil starts out neutral and is attracted through induction to the generator. In this case no electrons are exchanged so the overall charge on the foil remains the same . The induction causes a concentration of electrons to move closer towards the positive charge on the foil causing the area to be negative while the outer areas of the foil temporarily becomes positive. In the second part of your question is where you have me confused. While conventional currents are designated as flowing from positive to negative, in many instances the current is able to flow in both directions. In metal solid conductors, it is actually only the electrons that are able to move. For the Aluminum foil to make contact with the generator and have the same polarity, it must give up electron to the generator to make it positively charged. So what happens during a positive charge dissipation? How else would a surface lose it's positive potential? Since protons are unable to move positions, my thoughts are for the foil to become neutral, the only way it can do that is for it to gain electrons from a nearby source, in this case the air surrounding it.. It would do so at the sharp edges of the foil. Further I would guess that as quickly as it is happening, the positive charge is not actually fully dissipated on the foil, but enough to allow induction to attract the foil and process repeats itself. If I am wrong in any of this I would be interested in being corrected or pointed towards some articles that you could suggest.
@energycrafts8206
@energycrafts8206 7 жыл бұрын
H.i Bruce, I did not forget about your comment, only too busy to reply until now. When I stated earlier "I think this is a case of positive charge dissipation to the environment not electron acquisition from the environment" I was considering the case of 2 neutral metal spheres (or balloons) held by nonconducting strings from the ceiling. Charge the first sphere positive. Now bring the neutral sphere in contact to the positive sphere. The previously neutral sphere does not become negative charged but becomes positive charged. Now without discharging them allow them to lose contact and now both spheres have the same positive and repelling conditions. The first sphere surface charge density became less as the second sphere made contact resulting in a lower density of charge per unit surface area. That is what I meant by dissipation. Now as to your view that the electrons were acquired from the environment, I have a problem with understanding that since it is well know there are few "free electrons" near the earth's surface and I find it hard to believe there is enough to make the fast results that your experiment shows. Where in the environment do you think they came from? If earth potential (ground negative) then a direct connection should greatly improve your results versus air of poor free electrons and conductivity. But to acquire electrons by other ways (robbing them) would cause the environment to become less negative (more positive) resulting in an imbalance. Then I would have to ask where the environment in turn gets its replacement electrons to return charge balance? I have a reference that you might enjoy about electric fields and your interest in particles interplay. See "Nonuniform Electric Fields" in Scientific American, Dec. 1960, p.107-116. I found the subject extremely interesting back in 1986 when I started doing many experiments with HV and electrostatics.
@matrinoxtm
@matrinoxtm 7 жыл бұрын
1:44 is it actually going towards your hand because it’s attracted to the charge in your hand or does it move away because they’re both positive? Before you add your hand, the can already moves away so I have a feeling your hand isn’t the cause. Also that would mean your hand is negatively charged, but how would you know that?
@YeanyScience
@YeanyScience 7 жыл бұрын
Hi Matt, good point, in this instance it is a combination of both. My hand most likely is negatively charged since I am holding onto the generator, and I could test it by bringing it near the two hanging plastic charges strips of plastic. The charged can would even still be attracted to my hand even if it were neutral.
@Mahmoud_Elharby
@Mahmoud_Elharby 3 жыл бұрын
why doesn't the can give the charge to the table before reaching your hand? is the table very insulated?
@panditanshtiwari8137
@panditanshtiwari8137 2 жыл бұрын
I really enjoy it
@mlifecool
@mlifecool 6 жыл бұрын
what are those two different cloths you're rubbing on the poles?
@YeanyScience
@YeanyScience 6 жыл бұрын
wool was rubbed on the vinyl the other Orlon, or you can use paper towel and rub it on the acetate
@keegan.markart
@keegan.markart 7 жыл бұрын
I love your videos
@protectme4278
@protectme4278 7 жыл бұрын
There's a frame around the 10:42 mark that shows the arc from the generator to the can. Using the dielectric breakdown of air (3x10^6 V/m) and a rough estimate of the distance between the can and the generator, I figure it carries about 260,000 volts across it...... I'm a little unsure about my logic here, but does that same voltage go across you when the can comes back? You don't even blink or twitch so I'm thinking either you're superman or I'm wrong....
@YeanyScience
@YeanyScience 7 жыл бұрын
Hello Ethan, I would think your math is correct on the voltage on the generator, in a previous video I hold my near the dome and it is a pretty good jolt. In this case, the can is much smaller than the dome so I would guess it must be losing quite a bit of the charge to the atmosphere by the time it gets to my hand I'm only getting about 1/2 inch arcs which is what about 15,000 volts or so.
@nitishbhosale1996
@nitishbhosale1996 4 жыл бұрын
How do we know that the pvc pipe Or that glass pipe is positively or negatively charged?
@YeanyScience
@YeanyScience 4 жыл бұрын
electrical charges' behavior is similar to poles on a magnet either attract opposite charges or repel the same type of charges
@pkillor
@pkillor 3 жыл бұрын
Please can you make a Lord Kelvin's Thunderstorm experiment !! THANKS
@YeanyScience
@YeanyScience 3 жыл бұрын
I have one and have it on my to do list for a video
@johndoe-bq1xt
@johndoe-bq1xt Ай бұрын
HRY! THAT'S PRETTY COOL !!!
@BloodAsp
@BloodAsp 7 жыл бұрын
BRUCE YEANY, DON'T CROSS THE STREAMS!!!!!
@YeanyScience
@YeanyScience 7 жыл бұрын
THAT WOULD BE BAD!! A TOTAL PROTONIC REVERSAL!!!!!
@simmerocky2393
@simmerocky2393 6 жыл бұрын
Nobody going to mention all the electric shocks he had to endure?
@Kratax
@Kratax 7 жыл бұрын
If electrons go to ground, can you get them back?
@YeanyScience
@YeanyScience 7 жыл бұрын
Yes, grounding a charge can go in either direction, it is able to soak up extra electrons or give them up to a positive charge.
@caseypei4300
@caseypei4300 7 жыл бұрын
Knowledge.
@anuradhabarnwal5408
@anuradhabarnwal5408 4 жыл бұрын
Sir you will say how to fly plastic with balloon
@Bryan_Kay
@Bryan_Kay 3 жыл бұрын
Isn't this considered a Franklin Bell?
@YeanyScience
@YeanyScience 3 жыл бұрын
yes, the original lightening detector
@vikramchary9778
@vikramchary9778 3 жыл бұрын
Sir at 7:11 how the thread raised Please explain sir please
@こま実験小僧
@こま実験小僧 7 жыл бұрын
lt is indeed an interesting!
@smtgicaggoz.12345
@smtgicaggoz.12345 3 жыл бұрын
SUPER THANKS
@infinitethrill4925
@infinitethrill4925 3 жыл бұрын
Who else is watching this during online class
@QuackersClocksYT
@QuackersClocksYT 4 жыл бұрын
y'all should know the beginning song if you came from the hub
@TheWadetube
@TheWadetube Жыл бұрын
I hope this can work for astronauts in zero G to attract them to the floor and repell them from the ceiling.
@admiralpercy
@admiralpercy 7 жыл бұрын
A SODA CAN VAN DE GRAAFF OMG
@homerheavy3128
@homerheavy3128 6 жыл бұрын
Fake, the soda is a paid actor
@disruptivegarage
@disruptivegarage 7 жыл бұрын
9:18 stasis field! jk
@scorpiowitch11
@scorpiowitch11 Жыл бұрын
Coke😂🎉❤😅
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