- 3 months ago
EDUCATION
Category
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LearningTranscript
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00:05:30the FN India
00:05:33the area of an Indian
00:05:3831 which of the following is correct statement in myself also say a beta raise are same as
00:05:47cathode raise
00:05:48wala
00:05:53chalo
00:05:55such loo
00:05:55iske baare maham agle statement me chalata
00:05:57gama raise are highly energy high energy neutron
00:06:03agla chalo
00:06:13nahi ara kuch to
00:06:14alpha particle are singly ionized helium atom
00:06:18galat
00:06:19proton and neutron have exactly the same mass
00:06:27yeh bhi galat
00:06:28to third or fourth to galat aga
00:06:31gama raise ke baare maham bolna
00:06:33or first or second
00:06:34about how kya
00:06:35second
00:06:39kisina search case ke baare
00:06:41just a neutron
00:06:45gama to e-m wave
00:06:49search
00:06:52kero is
00:06:52chishko
00:06:53chet gpt
00:06:59this is the right thing?
00:07:01No, no.
00:07:03Is it a right thing?
00:07:05Is there a right thing?
00:07:23What is the right answer?
00:07:27where gamma rays electromagnetic wave and electromagnetic wave photons
00:08:08meditator
00:08:37foreign
00:09:07is
00:09:09the best option
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00:09:53first number question uranium 238
00:09:56the other starting
00:09:59or a
00:10:00particle particle
00:10:02radio
00:10:05radio
00:10:06spontaneous
00:10:07external force
00:10:09momentum
00:10:10conserve
00:10:11the
00:10:12momentum
00:10:13conserve
00:10:14this
00:10:15is
00:10:16here
00:10:17this
00:10:18is
00:10:19I tell for you, I'm sorry, I'll come up with the bus come on.
00:10:22It's a nice jar.
00:10:23It's a good enough to get to 30 for a test.
00:10:26It's a initial momentum.
00:10:27It's a zero.
00:10:28The final momentum.
00:10:29Those are two thirty four or.
00:10:32It's a momentum.
00:10:33We can't see zero momentum zero.
00:10:36It's a velocity.
00:10:37I'm into V.
00:10:39It's a momentum.
00:10:41I'm into V dash.
00:10:45Yes, I'm going to zero video.
00:10:48value minus made for you upon me 234 I am not a cataculted work to tell energy to make you
00:10:56know it may say it's good to know it's good to know about it you know I can show the power of
00:11:03power energy make an idea same question over power energy my momentum conservation that I'm
00:11:08that the conservation of linear momentum why you get some teacher rather than the ways to
00:11:12get some attention of the login mo amneska again this moment of all it's a energy car distribution
00:11:17see that energy of kinetic energy mask in verse my god that one of the other level of education
00:11:23for the other of you have a part of your project is the character of a killer here Joe doctor
00:11:27nuclear hit 234 Walla us key well as a T you Joe Hells K opposite but you either get a toy
00:11:35done piches a jerk look at each a year to us location which I think we call speed we call
00:11:41So the second one is the third one.
00:11:48Second one is the third one.
00:12:01Second one is the third one.
00:12:08which of the following can not be emitted by radioactive substance during their decay
00:12:30Which of the following can not be emitted by protein or neutrino?
00:13:00Which of the following can not be emitted by protein or neutrino?
00:13:16Which of the following can not be emitted by protein or neutrino?
00:13:38Which of the following can not be emitted by protein?
00:13:48Which of the following can not be emitted by protein?
00:14:00Which of the following can not be emitted by protein?
00:14:12Which of the following can not be emitted by protein?
00:14:16Which of the following can not be emitted by protein?
00:14:22Which of the following can not be emitted by protein?
00:14:28Which of the following can not be emitted by protein?
00:14:34Which of the following can not be emitted by protein?
00:14:37Which of the following can not be emitted by protein?
00:14:44so
00:14:46this is
00:14:48this is
00:14:50one
00:14:52twenty five
00:14:54and
00:14:56and
00:14:58and
00:15:00and
00:15:02and
00:15:04and
00:15:06and
00:15:08and
00:15:10and
00:15:12and
00:15:14and
00:15:22to
00:15:24add
00:15:26it
00:15:28and
00:15:30it
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00:15:34cosa
00:15:36of
00:15:38Burma Mazaar
00:15:52Sumatra
00:15:57Sumatra
00:16:03Sumatra
00:16:07This is all done.
00:16:17This has been a long time.
00:16:19We didn't have to exercise.
00:16:21We didn't do all the time.
00:16:26We asked what will happen.
00:16:30One value will be less.
00:16:33There's no change in the upper.
00:16:35There's no change in the upper.
00:16:37I am not sure.
00:16:39Ok, here we are 1 less.
00:16:412 less less than alpha.
00:16:43If we have less than beta.
00:16:45If beta is positive or negative?
00:16:47If it is less than negative,
00:16:49if it is less than negative,
00:16:51then it is positive beta.
00:16:532 less than alpha.
00:16:551 plus beta is negative.
00:16:57This is the sequence.
00:16:59Negative alpha and beta.
00:17:01Ok?
00:17:03Ok?
00:17:05Ok?
00:17:11I am not sure.
00:17:13Next chapter is heading.
00:17:15But it is in the new play.
00:17:17Iron's team.
00:17:23This is the chapter.
00:17:25What?
00:17:27What?
00:17:29What?
00:17:312 lectures on this.
00:17:33It is not read atomic.
00:17:35It is not read atomic.
00:17:37It is not read atomic.
00:17:39It is not read atomic.
00:17:41It is read atomic.
00:17:43Einstein.
00:17:45Mass energy relation.
00:17:47I am not sure.
00:17:49I am not sure.
00:17:51I am not sure.
00:17:53I am not sure.
00:17:55Because.
00:17:56But this is a full explosion.
00:17:57So.
00:17:58Einstein.
00:17:59Kansas energy relation.
00:18:00The firstий.
00:18:02The third
00:18:23according to it mass and energy are equivalent
00:18:30according to it mass and energy are equivalent and
00:18:37can be converted into each other according to
00:18:42can be converted into each other according to
00:18:47the system.
00:18:53E equals to m c is where
00:18:56I have already told this about it.
00:19:00Here we see mass, Einstein told that mass is
00:19:04energy and energy is related to that mass.
00:19:07Without mass, we can convert into the same
00:19:14।
00:19:18।
00:19:22।
00:19:32।
00:19:36।
00:19:40।
00:19:42come on
00:19:44we will listen to this one
00:19:46if we have
00:19:50any particle
00:19:52that particle
00:19:54has
00:19:56one time
00:19:58we have
00:20:00in motion
00:20:02if we have
00:20:04in motion
00:20:06what will happen
00:20:08So, if you think about the rest, there is an electron. I put an electron on the rest.
00:20:13Is it an electron? What will it be?
00:20:17If there is a photon on the rest, then the rest of the mass is zero.
00:20:21The rest of the mass is zero. But if there is a photon on the rest.
00:20:25The electron of the mass is 9.110 to the power minus 31 kg.
00:20:29If you think about any particle on the rest, then it will be equal to mc squared.
00:20:36It means mass is energy and energy is mass.
00:20:39If you think about rest, then it will be not.
00:20:43What is the rest mass?
00:20:45What is the rest mass?
00:20:48If you think about rest mass, then it will be mass and rest mass.
00:20:54What is the rest mass?
00:20:56What is the rest mass?
00:20:58What is the rest mass?
00:20:59What is the rest mass energy?
00:21:01This is the same.
00:21:03This is the same.
00:21:05This is the same.
00:21:07This is the same.
00:21:09If I am using C squared,
00:21:11then energy comes in.
00:21:13Einstein's mass is the same.
00:21:15This is the same.
00:21:17This is the same.
00:21:19Rest, mass energy.
00:21:23If it is the same,
00:21:25it is the same.
00:21:27If it is the same,
00:21:29it is the same.
00:21:31Just the same.
00:21:33It is the same.
00:21:35It is the same.
00:21:37All the way,
00:21:39there is the same energy.
00:21:41It is the same energy.
00:21:43It is the same energy.
00:21:45Now, when I start,
00:21:47when I start,
00:21:49it's the same energy,
00:21:51the same energy.
00:21:53This energy was about
00:21:55for me.
00:21:57this is a model of a river cover it is clear every respect this comes mass
00:22:01it's mass it's instant recording energy and it's up child right okay
00:22:07almost got a movie oh my stuff here but the top view of the energy to hey
00:22:12look at the link a current kinetic energy to other particle motion my head
00:22:17from this public day equals to mc is what are you energy concierge I tell
00:22:22you not like this one I'm gonna not it took a trip to us to pass me
00:22:26the mass of the current energy was the first one.
00:22:31Plus, the kinetic energy is going to go.
00:22:36This energy is the rest mass of the current mass.
00:22:41M-naught.
00:22:42But now the energy is going to go.
00:22:45This energy is going to be more than the rest mass of the energy.
00:22:51And the kinetic energy is going to go.
00:22:53So this is going to go.
00:22:55This mass is going to be more than the mass.
00:22:58If we are going to go,
00:23:01then our mass is going to go.
00:23:05Because when we are going,
00:23:07the energy is rest mass.
00:23:09The energy is rest mass plus kinetic energy is going to go.
00:23:14So this mass is going to go.
00:23:16We are going to go.
00:23:18We are going to go.
00:23:20Because now we are going to go.
00:23:22We are going to go.
00:23:23But if we are going to go very high speed,
00:23:25then we are going to go very high speed.
00:23:26So we are going to go very drastic change.
00:23:28So here we are going to go.
00:23:31M into C square.
00:23:33Because we are going to go.
00:23:34We are going to go.
00:23:35We are going to go.
00:23:36We are going to go.
00:23:37We are going to go.
00:23:38We are going to go.
00:23:39We are going to go.
00:23:40So this will get Yes.
00:23:41Let's start.
00:23:42We will move by.
00:23:43Once we are.
00:23:44It will increase
00:23:47You can see that much and reasonable.
00:23:49Since we are going to focus on change.
00:23:50A enclosed called
00:23:56of pulsar,
00:24:09Light's speed is comparable to CY10.
00:24:39a CY100. It's possible to change the CY100.
00:24:46C is not possible.
00:24:51The mass is slightly varied.
00:24:58We will question the mass is varied.
00:25:03So one thing is that if it's a rest mass, it's a rest mass, and if it's a rest mass, it's a moving mass, because if it's a rest mass, it's a rest mass, it's a rest mass, it's a rest mass energy.
00:25:22What is the rest mass energy? It's a rest mass, it's a rest mass, so it's a rest mass, it's a rest mass mass.
00:25:37Next, let's move on.
00:25:40We have a mall concept, chemistry, 1 AMU, Atomic Mass Unit.
00:25:50It's a value of 1 upon n-a-gram.
00:25:561 upon n-a-n-a-n-a value.
00:25:58I'll just write it, let's move on.
00:26:01This is 10 to the power 23-gram.
00:26:04If we just solve it, then it will go up.
00:26:07Okay, it's more than 10 upon n-a, 6.02 into 10 to the power minus 24-gram.
00:26:12So this value is 1.66 into 10 to the power minus 24-gram.
00:26:19Or 1.66 into 10 to the power minus 27 kg.
00:26:251 AWU piece is the male concept in this phase.
00:26:28Let me add this.
00:26:30It means that 1 upon n-a-gram, na-i value.
00:26:33consistency in kg is rhoiada.
00:26:36Oh!
00:26:371 MU then, the value Kaiser is diciendo.
00:26:41It means that in proton customize and neutron-s即
00:26:41this previously known Lean now as the matter.
00:26:45We can talk about it.
00:26:47We don't have to talk about hidden
00:26:52the emerging and all around is the imperfection.
00:26:54Now listen to me.
00:26:56What is the word I am saying?
00:26:58Do you like this?
00:27:02Energy of 1 amu mass.
00:27:10Okay.
00:27:12In motion, I have written a question.
00:27:14Energy of 1 amu mass.
00:27:16There is 1 amu mass,
00:27:18there is rest.
00:27:20And if there is rest,
00:27:22there is rest mass.
00:27:24And the rest mass,
00:27:26the energy we call,
00:27:28rest mass energy.
00:27:30Rest mass energy,
00:27:32rest mass energy,
00:27:34it is a new energy.
00:27:36It means that my mass is not a energy.
00:27:38Because I am talking about moving,
00:27:40if I am not going to be energy,
00:27:42if I am not going to be energy,
00:27:44if I am going to be energy,
00:27:46then it means that if we are going to be energy,
00:27:48it means that rest mass energy.
00:27:50And the energy of 1 amu is the value.
00:27:54M into c square.
00:27:56How much is it?
00:27:581 amu.
00:28:001 amu means that
00:28:023 into 10 to the power.
00:28:041 amu means it's the power of 8 1 amu delhi.
00:28:085 does this 50%?
00:28:10With the power of 8 2 kyp do.
00:28:12So xc andla,
00:28:131,4 what if we are going to be energy,
00:28:14we are going to be energy.
00:28:15Then the power of 9,4 what is the power of 8,4?
00:28:17The power of 9,4,
00:28:18He is not going to be energy.
00:28:19And for absolutely not to be energy,
00:28:20We are going to be energy.
00:28:21So we are going to be energy.
00:28:22If I have this value of 1.6 to 10 to the power minus 9 to the divide, then this value is 931.5 Mbps.
00:28:40If you look at this value of 10 to the power 6, then this value is 10 to the power minus 19.
00:28:48If there is only one Mbps, then it will take just 1 Mbps.
00:28:56If it has 10 Mbps, then this value of 10 Mbps is only 10 Mbps.
00:29:09If there is some amount of Mbps, then this value of 10 Mbps is only 10 Mbps, then this value of 935.
00:29:17So now let's see the note inside that thing.
00:29:20Rest, mass, energy of energy.
00:29:281 amu.
00:29:30If 1 amu is mass, then what is energy?
00:29:35931.5 mE.
00:29:40Rest, mass, energy of proton.
00:29:43If proton is mass, then what is energy?
00:29:52If proton is mass, then what is energy?
00:29:54Neutron.
00:29:55Neutron.
00:29:56Neutron.
00:29:57Neutron.
00:29:58Neutron means?
00:29:59931.5 mE.
00:30:02This is 1 amu.
00:30:04Now let's see.
00:30:06General is mass.
00:30:07Electronic.
00:30:08Neutron.
00:30:09One amu.
00:30:101 apon.
00:30:11Neutron.
00:30:12Neutron.
00:30:13Neutron.
00:30:141 apon.
00:30:151837 times.
00:30:161 apon.
00:30:171 amu is full.
00:30:181 amun.
00:30:191 amu.
00:30:201 amu.
00:30:211 amu.
00:30:22If 1 amus.
00:30:231 amu is full.
00:30:24So this amu is full.
00:30:26So, if I look at it, it's about 900 and 1800, it's about 0.5, so it's about 0.51 mega electron.
00:30:35If you divide it, it's about 1 mu, so it's about 1 mu.
00:30:40If there's some electron, then it's about 0.5 mega electron.
00:30:47If there's so much energy, it's about 0.5, so it's about 0.5, so it's about 0.5, so it's about 0.5, so it's about 0.5.
00:31:08If there's electron mass, it's about 0.5, so it's about 0.5, so it's about 0.5, so it's about 0.5.
00:31:162 in 2.5, so it's about 0.5.
00:31:18It's about 2 in 2.5.
00:31:19If there's a electron to find that, it can be mans of the power, so it's about 0.5.
00:31:24So it's about 1 mu, so it's about 2 mu.
00:31:28Then, it can be 1 mu.
00:31:35The mass is 1mU, so it is so much energy.
00:31:391mU mass is a proton and neutron,
00:31:41so it is so much energy.
00:31:43Neutron, electron mass is 1, 8, 3, 7 times.
00:31:47If it is divided, then it is so much.
00:31:49Okay, so it is a positron.
00:31:51We can write positive electron.
00:31:55It is a beta particle type.
00:31:57So its mass is so much.
00:31:591, 8, 3, 7mU.
00:32:02The positron is also a point.
00:32:06Do you understand this?
00:32:09Let me show you the question.
00:32:32Let me tell you something.
00:32:36Let me show you in the chat.
00:32:38Let me ask
00:32:45the viewer to provide the viewer space.
00:32:47You see in the'll future,
00:32:51the Couldnang,
00:32:54for this period of time,
00:32:56this being Heroin is definitely found.
00:32:59or 1 mu
00:33:04kisi ka bhi bata saktay
00:33:05kisi ka bhi bata saktay
00:33:061 gram ke paas
00:33:13me kitnay energy hoaghi
00:33:141 gram ke paas energy
00:33:17m into c square
00:33:19m ki value 1 gram
00:33:21si me rakhdo
00:33:22into c square
00:33:23aaghi 1 gram ki energy
00:33:241 mu ke liye
00:33:28931.5 mega electron volt
00:33:31hota
00:33:31dhik liya
00:33:58aaghi
00:34:02eek question ka answer to
00:34:05kip
00:34:05eek proton hai
00:34:08uske pats me
00:34:09thousand mega electron volt energy
00:34:11energy
00:34:13thousand
00:34:141,000
00:34:15mega electron volt
00:34:16energy
00:34:18rest
00:34:19rest
00:34:20not
00:34:21because
00:34:22if
00:34:23proton
00:34:24is
00:34:25931.5
00:34:26is
00:34:27the name
00:34:28of proton
00:34:29is
00:34:30the rest
00:34:31is
00:34:32kinetic
00:34:33so
00:34:341,000
00:34:35minus
00:34:36931
00:34:37is
00:34:38kinetic
00:34:39energy
00:34:40it's
00:34:41ultimate
00:34:42at
00:34:430
00:34:47I
00:34:49I
00:34:51I
00:34:53I
00:34:58I
00:35:00I
00:35:01I
00:35:03I
00:35:05I
00:35:08I
00:39:01I willernaいい
00:39:03next.
00:39:07Great.
00:39:17a reference, a good system, where will the stopping potential come from? If this electron
00:39:24comes from a metal, then there is a stopping potential between the metal and the beach.
00:39:29Next question. If an electron is accelerated by 500 kV,
00:39:45what can you do with this? What can you do with this?
00:39:54If this electron has a potential, then the kV is the same?
00:39:58It's the same. It's the same.
00:40:03It's the same. It's the same.
00:40:06500 kV.
00:40:09Then find out percentage change in mass of electron.
00:40:34Then find out percentage change in mass of electron.
00:40:44Then find out percentage change in mass of electron.
00:40:53Then find out percentage change in mass of electron.
00:41:04Then find out percentage change in mass of electron.
00:41:11How much is it?
00:41:30It's a lot more than 100 percent.
00:41:34It's double the electron.
00:41:37This is the first step, I have a percentage change in mass, so this is the change and this is the initial upon 100.
00:41:51This is the change upon initial into 100.
00:42:02So, M is equal to M C square, E M is equal to E by C square.
00:42:13So, this is the final energy upon C square, initial energy upon C square, C square cancel.
00:42:22So, this is the final energy upon C square, this initial energy upon C square and this initial energy upon C square into 100.
00:42:31I am going to line by line, this C square is common.
00:42:36So, this is the final energy upon C square, so this is the final energy upon C square.
00:42:470.5 electron
00:42:490.51
00:42:50meg electron volt
00:42:51final energy
00:42:53E naught
00:42:55E naught
00:42:57E naught
00:42:580.51
00:42:59meg electron volt
00:43:01kinetic energy
00:43:02500
00:43:03electron
00:43:06kinetic energy
00:43:07Q into V
00:43:10Q value E
00:43:11and this
00:43:12500
00:43:13kilo volt
00:43:14can I
00:43:15this
00:43:15can I
00:43:15can I
00:43:16500
00:43:17kilo volt
00:43:17Kilo electron volt
00:43:19are you
00:43:20are looking at
00:43:20mega electron volt
00:43:21can I
00:43:22ask myself
00:43:220.5
00:43:25big
00:43:25never say
00:43:26yeah
00:43:26megaly
00:43:28so yeah
00:43:29some
00:43:29is
00:43:29kinetic energy
00:43:30like
00:43:30something up
00:43:31yeah
00:43:31I have a
00:43:32pathway
00:43:320.5
00:43:34I
00:43:35are a
00:43:350.51
00:43:36point
00:43:37for
00:43:37a
00:43:37level
00:43:37it
00:43:38over
00:43:38energy
00:43:38I
00:43:39I
00:43:40just
00:43:40right
00:43:41out
00:43:41right
00:43:41about
00:43:41the
00:43:41idea
00:43:42the
00:43:43mass
00:43:43a double to energy sorry energy double Tomas double 100% what again valid dress mass energy
00:43:50with love 0.51 kinetic energy Q into e 0.5 to look at me to go away the mass who are double
00:43:59energy we double Tomas I got double but the 100% change 200% oh yeah 100%
00:44:07yeah yeah yeah yeah yeah yeah yeah yeah yeah yeah yeah yeah yeah yeah yeah yeah one point zero one
00:44:16mega electron volt the only final energy one point zero one initial point five one upon me a point five
00:44:24one into so are you to change it oh hey are you kinetic energy to have joy at the value value point
00:44:31five upon my point five one mega electron volt cancer luck work hundred percent solve the
00:44:36other than ninety seven point eight percent the question some of the data TRIKA TRIKA TRIKA
00:44:42Kiai electron Japan in a hi-chalaya over post-cap which mass here just a lot of you have to
00:44:48mask it now about a lot of the time that I'm energy Joe Rhi Ogui you serious mass I know
00:44:53the rest mass energy vice versa a bullet that up the cell get a kinetic energy or and away from
00:45:00We have seen how much kinetic energy is, and the kinetic energy is much higher than the rest of the mass.
00:45:07The energy will be double, so the mass will be double, so the mass will be 100% increase.
00:45:14Half mv², then the mass will be double, then the mass will be double, and the mass will be double.
00:45:32If you listen to the mass, then the mass will be very difficult, but if the mass will be just the mass,
00:45:42then the mass will be done with every year.
00:46:12the clear
00:46:14but
00:46:25a core question basic son find out
00:46:29energy released
00:46:37find out energy released from 10 gram uranium
00:46:45uranium
00:46:59uranium
00:46:59uranium
00:46:59uranium
00:47:01uranium
00:47:02uranium
00:47:03uranium
00:47:04uranium
00:47:05uranium
00:47:06uranium
00:47:07Find out energy release from 10 g uranium in nuclear reactor or nuclear fission.
00:47:15this is the power of 4 gram.
00:47:17We should listen to this idea.
00:47:21This idea of 10 gram on uranium,
00:47:22how much energy is released?
00:47:24By mass means 0,
00:47:26so this idea of energy.
00:47:27It is equal to mc square.
00:47:30If I know 10 gram,
00:47:33so mass is energy.
00:47:35So e to value 10 gram,
00:47:3810 to 10 to the power minus 3.
00:47:41What is this idea of c square?
00:47:42c square 9 into 10 to the power 16
00:47:45here we have minus 2
00:47:489 into 10 to the power 14 joule
00:47:52if you go into joule
00:47:53if you have electron volt
00:47:56then you divide it
00:47:58here we have
00:47:59this question change
00:48:06next to next class
00:48:09when we have
00:48:11nuclear reactor or nuclear fission
00:48:14word use
00:48:14because here we have
00:48:1710 grams
00:48:19but when we go into nuclear reactor
00:48:21then we go into 10 grams
00:48:22some parts will be used
00:48:24all energy
00:48:25not going to be
00:48:26mass defect
00:48:29mass defect
00:48:31mass defect
00:48:33mass defect
00:48:37mass defect
00:48:39mass defect
00:48:49mass defect
00:48:50ok
00:48:53we go into
00:48:56like this
00:48:57delta M
00:48:58delta M
00:49:00I'm going to take a minute.
00:49:02I'm going to take a minute.
00:49:04I'm going to take a minute.
00:49:06Now, what are we going to do?
00:49:08Here we go.
00:49:10We have a proton
00:49:12Neutron
00:49:14Neutron
00:49:16So, we have to keep it
00:49:18Combined form.
00:49:20We have to keep it
00:49:22Free Nucleons
00:49:24Free Nucleons
00:49:26Free Nucleons
00:49:28Free Nucleons
00:49:30Highly Unstable
00:49:32Highly Unstable
00:49:34Highly Unstable
00:49:36Unstable
00:49:38Unstability
00:49:39When energy
00:49:40I'm going to go
00:49:41High energy
00:49:42High energy
00:49:44I'm going to be crazy
00:49:45Unstable
00:49:46Energy
00:49:47I'm going to keep it
00:49:49Stability
00:49:50If we have any
00:49:53Helium
00:49:55Helium
00:49:56What are
00:49:572 protons
00:49:58and 2 neutrons
00:49:59Sodium
00:50:00What are
00:50:0111 protons
00:50:02and 12 protons
00:50:0411 protons
00:50:05Sodium
00:50:0623
00:50:0711 protons
00:50:08and 12 protons
00:50:09Neutron
00:50:10And
00:50:11Nucleons
00:50:12Stable
00:50:13Unstable
00:50:15Unstable
00:50:28Unstable
00:50:29takiego
00:50:30No
00:50:31which
00:50:32Is
00:50:33MON
00:50:33Unstable
00:50:35Unstable
00:50:36Unstable
00:50:38Unstable
00:50:39Um
00:50:40Unstable
00:50:42When the nuclear energy is very strong and stable, the nuclear energy is very low.
00:50:55When the nuclear energy is dropped, the energy will be given.
00:50:59And when the nuclear energy is given, the energy will be given.
00:51:02So, when the nuclear energy is given, it will be unstable.
00:51:06If yourrau remains, when the nuclear energy is part,
00:51:13the nuclear power in a short range of support will work.
00:51:23So, when the nuclear power exists from
00:51:25the primary relation to the nuclear power, and when the nuclear powerenga goes higher,
00:51:30like this, like this, like this, we put not the nuclear power into nuclear power.
00:51:35stable. And if it is stable
00:51:37and then here is energy
00:51:39now what will happen? Low.
00:51:41Come energy. High energy
00:51:42from low energy. There will be
00:51:44a little energy
00:51:45that will disappear.
00:51:48A lot of energy will disappear.
00:51:50But Einstein said that energy
00:51:51means mass. Mass means energy.
00:51:54There is energy. High energy
00:51:56is high energy. Low energy
00:51:59is low energy. Come mass.
00:52:00This means some mass is here.
00:52:02Here is energy.
00:52:05Here is mass.
00:52:08High energy
00:52:10is more than
00:52:12and here is less.
00:52:14And here is less.
00:52:17And here is less.
00:52:18And here is less.
00:52:20Mass loss.
00:52:21Mass loss.
00:52:22Mass loss.
00:52:23Mass loss.
00:52:24This is the mass defect.
00:52:28When there is a
00:52:30I have to say that there is a lot of energy that has been released.
00:52:35What we have said yesterday,
00:52:37the amount of mass of the A upon A, A minus 4,
00:52:42the amount of questions were asked.
00:52:44There was a lot of energy coming out.
00:52:47How will the energy come out?
00:52:48Now, somewhere, there will be more mass.
00:52:51There will be less mass here.
00:52:53I'm going to tell you,
00:52:55we have released an alpha from 238.
00:52:59You are going to tell us that when it comes to 238,
00:53:02we have to convert it to 238.
00:53:04You'll have to convert it to a 4.
00:53:05This is not a mass,
00:53:06this is a mass.
00:53:08It is an atomic mass.
00:53:13This is an atomic mass.
00:53:14It is an atomic mass.
00:53:16It is an atomic mass.
00:53:17It's an atomic mass mass.
00:53:19The nuclear reaction is a mass mass mass mass.
00:53:24It's an mass mass mass mass mass mass.
00:53:28as I just met in my pocket for that yeah I got energy nuclear era what of energy and
00:53:35I have a mass here wait our energy about the mass in a but of yet total mass or yet total
00:53:42mass but other oh but you have come a Zaga how you have come on this car all over to change
00:53:48I have one of energy for a mobile and I'm a lawyer my lawyer had best job or in 9.9
00:53:54to be able to get the energy point one gram to be able to get a point one gram and do
00:54:02see this for you boy is a mega does grab nine point nine gram the change I had just come
00:54:09to be a mass defect of your master point one grandkawa to score she's quite a multi-player
00:54:15The energy will be so much.
00:54:18This is the mass effect.
00:54:20This is the binding energy, nuclear reaction, and all questions.
00:54:24We have told you what will come to us.
00:54:28Let's write it down.
00:54:45I don't know.
00:55:15in form of
00:55:19energy
00:55:22so this energy
00:55:26which is the mass
00:55:29disappear
00:55:32into c square
00:55:36mass disappear
00:55:38mass defect
00:55:40into c square
00:55:41no
00:56:04no
00:56:04no
00:56:05I
00:56:06I
00:56:06I
00:56:07I
00:56:07I
00:56:07I
00:56:07I
00:56:07I
00:56:07I
00:56:07I
00:56:08I
00:56:09I
00:56:10I
00:56:10I
00:56:11I
00:56:12I
00:56:13I
00:56:14I
00:56:15I
00:56:16I
00:56:17I
00:56:18I
00:56:19I
00:56:20I
00:56:21I
00:56:22I
00:56:23I
00:56:24I
00:56:25I
00:56:26I
00:56:27I
00:56:28I
00:56:29I
00:56:30I
00:56:31I
00:56:32I
00:56:33I
00:56:34I
00:56:35I
00:56:36I
00:56:37I
00:56:38I
00:56:39I
01:01:56may be other data and am you may have other day time as I unit where other
01:02:11was I unit my head to energy E value yeah I am into you get another gas is
01:02:18for three to ten to the power eight yes you do that the travel is I know that she's person
01:02:25are a new man for music I am you clear nine that even took it in a new clip to energy
01:02:31K3i so yeah they got my repassment data I am into a cam you kill a 931.5
01:02:39mega electron world to it make a lick it but you can't you for spoon feeding over
01:02:44I need you to do it.
01:11:54energy release.
01:11:55Okay, start with rest.
01:11:57Where is this energy?
01:11:59Kinetic energy.
01:12:01Is this kinetic energy?
01:12:034 upon me, 238 into cube.
01:12:07234 upon me, 238 cube.
01:12:12This energy release will be.
01:12:16Mass where is the mass?
01:12:18Uranium?
01:12:21Uranium's mass will be less than here.
01:12:24So, the mass will be less than here.
01:12:26So, the mass will be less than here.
01:12:28So, the mass will be less than here.
01:12:30How much energy will it be?
01:12:31Delta M into C square.
01:12:33This is the first thing.
01:12:34Now, the other type of equation.
01:12:36Will it be binding energy for this whole?
01:12:40No.
01:12:41Because the energy is from the nucleus and from the nucleus and from the nucleus.
01:12:46Will it be binding energy?
01:12:49Yes.
01:12:50You can't find this nucleotile.
01:12:51What?
01:12:52How many?
01:12:53I do.
01:12:54Goodbye.
01:12:55See that.
01:12:56When you get this energy,
01:12:57where you are,
01:12:58you're saying that.
01:12:59The entire energy is going to be released.
01:13:00How much?
01:13:01I mean?
01:13:02That is why the energy is coming.
01:13:03You do.
01:13:04You know,
01:13:06I am saying that.
01:13:07How much energy is coming?
01:13:08You don't have to go away from it.
01:13:10And then,
01:13:11you really look at it.
01:13:12When this is new, for example, we can define this binding energy, because this can even be formed by the newspring or the newspring from the nucleus.
01:13:21The binding energy will come in.
01:13:24When this will come from the nucleus, then its much energy would release it.
01:13:30Or, we can use the same energy as it will fall.
01:13:35The binding energy will come in and in the entire building of the nucleus.
01:13:39because this is a little bit of a nuclear nucleus.
01:13:41We can say change.
01:13:43Here we can write a line.
01:13:47Binding energy, this is the most important line.
01:13:52Binding energy is energy corresponding to mass defect.
01:14:00Binding energy is energy corresponding to mass defect.
01:14:09Binding energy is energy corresponding to mass defect.
01:14:14If I get binding energy, then I get mass defect into C2.
01:14:20If AMU is energy corresponding to mass defect,
01:14:23then Binding energy is 931.5 mEV.
01:14:30If SI is running, then Binding energy is delta M into C2.
01:14:37If C is running, then Binding energy comes from C2.
01:14:40If it is fusion, it needs a very different process.
01:14:50It needs a very high energy.
01:14:52It doesn't need energy.
01:14:54Earth pain naturally, Hydrogen and Hydrogen can't be merged.
01:15:01Nuclear fusion.
01:15:03Sun happens in the Sun.
01:15:04So, thorium and urea alpha will be removed.
01:15:07Binding energy is a sense.
01:15:08The energy is released and positive.
01:15:10When it comes to mass defect, the energy is the amount of binding energy.
01:15:14The amount of binding energy is the amount of binding energy.
01:15:16The amount of binding energy is the amount.
01:15:17When it comes to mass defect, then it becomes the amount of binding energy.
01:15:29If we give it, then it's plus.
01:15:31While it comes to mass defect, it means minus.
01:15:32If you give it minus, then minus is the amount of binding energy.
01:15:36If we give it minus, then it is minus 100.
01:15:39I absorb it, I will tell you what it is.
01:16:01What is it?
01:16:01What is it?
01:16:06Number of?
01:16:09Yes, it is not a nuclear atom, but it is not a nuclear atom.
01:16:19Questionally, one minute.
01:16:22Binding energy of helium nuclei is 28 mega electron volts.
01:16:39Now, the chapter is more calculated.
01:16:4328 mega electron volts, then find out mass defect in AMU.
01:16:581 minute, let us listen.
01:17:00Now, let us write a line.
01:17:02Binding energy is energy corresponding to mass.
01:17:06So, what is the binding energy?
01:17:08Delta M into C square.
01:17:10Okay, in AMU,
01:17:17Delta M into 931.5 mega electron volts.
01:17:20How much helium for helium?
01:17:2228.
01:17:23Here, the delta M value is 931.5 mega electron volts.
01:17:29So, what is the value of EMU?
01:17:30The value of EMU is 0.03M.
01:17:34This question is solved.
01:17:36Binding energy is 28 mega electron volts.
01:17:40What is helium?
01:17:42Helium is 2 HE4.
01:17:44How much helium?
01:17:464.
01:17:47When it is different,
01:17:48it will become a nuclear atom.
01:17:50If this is the source of helium energy,
01:17:51then it will become 28 mega electron volts.
01:17:54We will release the созarion by helium.
01:17:57If you have 28迎ons,
01:17:58give it 4 nucleons.
01:18:01That's what we need to do.
01:18:02So, the binding energy will be used.
01:18:03However, it is a human.
01:18:06This is the meaning of this.
01:18:07It is the human.
01:18:09homework.
01:18:39This is AMU.
01:18:57This is AMU.
01:19:02This is AMU.
01:19:09This is AMU.
01:19:14See, proton and neutron mass is a little different.
01:19:21This helium mass is a nuclei.
01:19:26Binding energy is corresponding to energy of mass defect.
01:19:32Mass defect into C-square.
01:19:35AMU is 931.5.
01:19:37This is AMU.
01:19:39ulturative mapping.
01:19:45Italoon TV is aega.
01:19:51This is AMU.
01:19:53This is AMU.
01:19:54This is AMU.
01:19:57This world is 325.
01:19:59This is AMU.
01:20:02This was AMU.
01:20:04This was a隻 alluded.
01:20:04This is an issue.
01:20:06This is a noted science.