- Hi everyone, I'm here at the University
of Sydney today. I've got one familiar face, Petr, over here. - How is it going? - And this one is Gabe and Liam. - Hey. - So, everyone here is interested in I guess
physics, physics education and we've got some experiments set up for you. So, the first one we have here, you might
hear cranking in the background, is the Van de Graaff generator. So, this is I guess all about static charge
and electricity. You can see a bit of a discharge of electricity
between these two poles. Maybe Petr or someone else has set this up. Tell me what your explanation of it is. - Well, so the basic idea is that, remember
that experiment that you did hopefully in primary school, maybe high school where you
take a plastic rod or a ruler and you rub it with a piece of cloth, a piece of felt
and then you put it next to some water or next to uh, like a tissue or some paper or
whatever and that stream of water is slightly attracted towards that ruler... That is basically - it's separating the charges,
right? To create a pull, right? So that's kind of what's happening here. There's one part of this contraption is becoming
really strongly charged and the other one isn't as strongly charged and then it sparks
across the air. - Yes, so like an electric potential. - Yeah, there's a gap. As a rule of thumb, every centimeter that
a spark arcs across air is between 15,000 to 30,000 volts depending on kind of the humidity
and all those kind of things. So that is – - Around 10 or 15 centimeters gap. - I would say 10. - Yeah, I would say 10. - So, yeah, that's a lot of volts. Someone do the math quick, I'm not good at
this. - About 3000 give or take. Three hundred thousand, sorry. - Three hundred thousand volts. - On a good day, this can do about 30 centimeters
spark. Today is not a good day, but we have had to
do 30 centimeter before, which is – - It's frightening. 900 - 900 Kilo volts - So, Liam, so, you're saying there's 300,000
volts and there's a thing here and there's a lot of us around and there's this foam thing
on the floor. - It's almost if it's a hot set up here. - Yeah, I'm worried. - So, the form is that it insulate you for
the probably next thing we're going to end up doing. So that you can safely stand touching this
and build up a lot of charge and we should see hopefully some interesting things happening
with that. - So, this is so that I can safely stand and
touch this. What if I just touch it right now, what would
happen to me. - It would hurt, yeah, yeah. Instead of discharging into the grounding
ball there which is nicely connected to that ground so it doesn't hurt. - I would be ground? - You would be ground, yeah. - OK, so this is to stop me being the ground? - Indeed. - OK. - Ideally. - OK, so I guess we should try. - Should we try? - OK, so, it was an idea thrown around the
fact, I know you [Inaudible] that when you hold one of these, your hair starts to stand
on the end because I guess each strand of your hair has the same charge and like they
start to repel each other with your individual hair strands. I have quite long hair I guess, so I could
try take mine out and see if it does anything on the generator. My suspicion is that it - like my hair would
be too heavy, like each individual strand. I could, maybe the witness on the science
[?] here, maybe you guys can try off today but I've never tried on one of these since
I've had [Crosstalk] on itself. - Well, you could have tried to take science
[?] we're better to go. - Back to my classic science of long hair
series. - Yeah, possibly 15 at the moment, so that's
probably around 400K. - I actually have wooden rod [Inaudible] they
change. I did find it amazing but - - You can feel it sort of attract when you
see the spark bounce[Inaudible] the charges are pushing back out. It's a nice little bounce effect, I'm not
moving it at all. - No, I think it does have a good bounce. - Yeah. - That's so cool. - OK. - Alrighty. - Anyone wanna demonstrate or I'm up first? - You're up first. - OK, I'm standing right here. - Stand on it. - Yep. - Maybe take your watch off. - It's normally totally safe but I don't wanna
worry about breaking than hurting you. - OK, you're discharging it? - I'm discharging it at the moment, so what
you need to do now, go ahead and connect to the ground, so in order to build charge, hands
on. - Hand on now? - Both hands - Both hands. It's better. It's good at the moment? I'm gonna now take the earth off. - Yeah. - So, you should feel anything anywhere? - I don't feel anything. - OK. - But I can see the strands start. - Yeah, I think you can start to see her hair
moving. - Can you give your hair a shake? - Yeah. - Give it a shake. - Oh my god! That's amazing! - How does it look? - That's so cool! - Cameraman, how's it? Are any of the longer strands like affected? - They act like these longer strands should
push out a little bit. - And I didn't get my hair on the [Crosstalk]. - These shouldn't hurt you. - Nice.. - "Shouldn't"? - I might have to convince somebody to move
if you don't mind. - Alright, so John can you see that? - Yeah, yep, I can see it a little bit. - Is that a charged rod? - No, this is just perspex, so it could be
completely safe. - So, it shouldn't be – - You have no otherwise, it would have – - I mean, this one! You can see this one here. - Oh my god! That's so cool. - Let's have a look at the back. - That hair strand right there, that one is
flying off, off the back. - No, it's so amazing! Holy crap! - So, you know, this isn't the biggest Van
de Graaff generator, I did the same, but they're like much bigger ones that exist where the
charge build-up would be a lot more. - Yeah, absolutely. - So, I mean, I don't think I can get all
my hair standing with this one. But maybe with a bigger one. - But seriously so impressive. - I mean, that is still quite - had to get
a picture of you. - Yeah, that's amazing! - And you can see, it's clearly affecting
the top hair. All the hair at the top is absolutely - - The first impression that I have now which
is slightly scary is how conductive is hair? If I touch one of your strands of hair - - It's kind of [?] isn't it? - will this discharge? Will there be a spark between - - I don't think so. But if you do touch the ones at the back. - Yeah, this ones here. - OK. Oh! It's slightly - it's pulling towards me. Oh, that's pulling away. That's pulling towards, that's pulling away. - So, you are exchanging charge there, yeah. - Yeah, yeah, yeah. - Wooooh! - You are stripping electrons out there. - Can I release myself from this without getting
[Crosstalk]? - Toby, do you feel that? - I can feel that. We have a spark. - That's amazing. - So, just hands straight up. - Hands straight up? - And then just step off. Don't touch anyone or anything and you should
ground, your hair to drop straight down as all the charge goes straight in the earth. - OK, I'm gonna lift my hands off. - And straight off, and then step back. Step back on the ground without touching,
and your hair dropped. And maybe bang the table a little bit with
your hands before we move on. - Yeah, touch the table. - before you touch metal. - Oh my god! That was awesome! - Very good. - Nice one, hey [?]. - Getting a spark. - Yeah, OK, well, my hair is pretty long,
how about someone with short hair try. Petr, you should go. - This should be getting discharged or something. - Yes. - Cool. Every time there's still a tiny spark. - Let's go. - Alright. - I mean, there's always gonna be some - - So, I think, Toby, this might be your experience
as well, every time I do this, there's this um, like I know the physics and I know that
it's safe and I trust the equipment and I trust Liam and I trust the amount of years
of education I have, but it still feels weird, and this still feels scary and slightly wrong. - Yeah. I remember this was like one of this was like
one of those physics class. But here I'm like, yeah, now I was like telling
you guys like I was scared. - Yeah, it is. - And it's like this- - Well, we got the [Inaudible] only had this
one, over here. You can see the bottom is styrofoam and no
one would stand on empty [Inaudible] until I show you it was safe. But I wasn't quite sure because it got metal
on top, how safe I would be when we charge this. Sorry, I had to get up there [Inaudible]. - OK, so, Petr's hair, I don't know [Crosstalk]
but I can see [Inaudible]. - Yours was good. - Yeah, yours was really impressive. - But yours is doing really well, yeah. - I can't see it. - I know, I know, here, I'll show you. - Yours is definitely standing up now. Your hair was down here before. - Can you see it? - Oh wow! - It's pretty good. - Yeah. Oh wait wait, as soon as I let go - - No, as soon as you got one hand on, that's
fine. - No, but I feel - I feel - So, you can actually take your hand off
and put it back. - Whoa, wait, whoa! Whoa! Why is it making that noise? - What? The crackle? - The discharge. - Whoa, you'll have a different potential
between there and there. - Yeah, 'cause you got [Crosstalk] going on
in there as opposed to your head. - So, you can actually, don't do it yet, but
you can take your hands off a little bit and then put it back on for like a few seconds. Look at that, I just saw your hair drop. - You're doing that. - Yeah. - Because the charge is going to you and not
to me. - Yeah. Well, you see, now I'm acting like a lightning
rod. - I can hear them still charge. - God, that feels so weird! - Yeah. - Alright, so, what I'm gonna do now is I'm
gonna let go of my hands and then I'm gonna put them back on in a couple of seconds. - Yeah, in three seconds. - And he should store the charge... - Because your charge should be the same. - Right. - So, the reason you're not getting shocked
is because you're in the same charge as it. When you take your hands off, you should stay
relatively the same charge 'cause you're insulated from the ground and that's not gonna build
up too much more charge. So, you'll take it off, and put it back on
and you shouldn't get shocked. - That's the whole thing with the electric
potential. - Sure, I understand the theories. - You just wanna hope it's like, you know
- - So, a year ago, there was the show with
Todd Sampson called Life On The Line and like I thought the premise originally was kinda
lame and then like genuinely when he did a bungee jump with - with a phone book like
connecting the two elastic wires, I was like "man, this dude gets it". Like, this is actually insane. It's like one thing to know, you know, the
theory and the tests of it and then the other thing is to actually bungee jump with a phone
book. - Gotta have a lot of faith in the math, right? - Yeah, yeah. All right, so, three, two, one. One, two, three. Aww! - See, the hair does not drop back because
you still on the - - Yeah. - Oh, Oh, I just sparked it across the table. - It will jump into the table, yeah, because
that's, earth. - So, I get off, I'll discharge and then we
fist bomb again. - OK, we'll do it. - Alright. - There we go. - You still got some charge. - I can still see your hair standing up. - Yeah. Just hit the table, you'll stop a bit. - Oh, so good! Physics, I'm I right? - Good science guys, good science. - Good science. - I mean, I'm not sure if that was the spark
or that was the actual wire. - That was perfectly timed with the spark. - Did we not turn the lights off? - Well no, no. There was absolutely no time. Some time it takes up like [Inaudible]. Like we know we've done too much when that
clock at the back just turned into gibberish and the - well, if they down then go back
in the roof. - You've done too much physics when the clock - Yeah, the clock take on that is cool, it's
been real right down here. - We've decided to quit physics for today. - Yes. - OK, so we're rummaging in this cabinet looking
for some more experiments to use and Petr pointed out this strangely melted piece of
metal and he told me that this is a lightning rod. - Yeah, it's a lightning rod that actually
was at the University of Sydney and it was hit by lightning and then all the current
around it basically created a strong magnetic - magnetic field that basically pulled itself
together. So, it deformed from like a solid, like the
pipe that it is with a hollow opening as you can see and like the pipe shot itself and
it closed itself off there. Pinched itself together. So, it's actually called the pinch effect
and there's a demonstration of this here and we're not doing it because one of the transformers
is broken and we don't want to blow anything up. But if you put current in here, it basically
does that. - Yeah, and that's what happened to this little
thing. - Yeah. - Alright, let's go and do some more experiments. - Yeah.
