- 3 months ago
EDUCATION
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00:00:00الاسکلاس کے اندر ہم نے last چیز جو کی تھی
00:00:10last چیز جو کی تھی
00:00:11کوئی بھی radioactive material ہے
00:00:14تو اس سے emission ہوتا ہے
00:00:16spontaneous
00:00:18اور spontaneous emission میں
00:00:20کچھ particles اس کے nuclei سے نکلتے ہیں
00:00:23nuclei میں ویسے تو ہوتے ہیں
00:00:26proton اور neutron
00:00:28positive particle
00:00:30which is alpha
00:00:32which is neutral
00:00:34which is gamma
00:00:36and which is negative
00:00:38electron
00:00:40electron
00:00:42which is beta
00:00:44which is a little
00:00:46so two
00:00:48this is positive
00:00:50this is negative
00:00:52this is positive
00:00:54this is positive
00:00:56this is positive
00:00:58if we have
00:01:00x
00:01:02y
00:01:04z
00:01:06this is
00:01:08so
00:01:10this is
00:01:12stable
00:01:14and
00:01:16here
00:01:18here
00:01:20the
00:01:22energy
00:01:24energy
00:01:26energy
00:01:28energy
00:01:30rest
00:01:32energy
00:01:34energy
00:01:36and
00:01:38explosion
00:01:40explanation
00:01:42no
00:01:44no
00:01:46no
00:01:48no
00:01:50no
00:01:52no
00:01:54no
00:01:56no
00:01:58no
00:02:00no
00:02:02no
00:02:04know
00:02:18no
00:02:20no
00:02:22no
00:02:24no
00:02:26no
00:02:28no
00:02:30foreign
00:02:37foreign
00:02:44foreign
00:02:49foreign
00:02:52foreign
00:02:57or momentum, which is constant, or momentum constant means initial momentum and final momentum is the same.
00:03:05Initial momentum is the same.
00:03:08Initial and the final is the same.
00:03:11Initial and the final is the same.
00:03:13The momentum of x is the same.
00:03:17Momentum of y and z.
00:03:20What should we do with y and z?
00:03:21The momentum of y and z is the same.
00:03:29After the explosion, when you are 2 times higher, their momentum total being zero did.
00:03:34In this shape, here are the momentum at each time.
00:03:48I would also add the additional to the other, which I would say is 0.
00:03:52Then I would call a one of the f-100's rieners, which means 0.
00:03:56You may know that I'm already aware of this we don't have something to do.
00:04:00But if you are aware of this, you already know the value of the f-600's.
00:04:09You can say that the value is the same for both?
00:04:14do not kill a momentum same in the area apparently value same at the memory of a
00:04:20police police attack on a kinetic energy Joe hey when was the proportional to
00:04:25m the great one at a fix a square caro not a piece for a baby fix me at the
00:04:31photos
00:04:34your year value men is quite silly the piece for equals to 2m kinetic energy
00:04:39your value fix it you fix it to kinetic energy no see proportional to m
00:04:44or
00:04:46I guess a formulae out there is a kinetic energy mass
00:04:51in the inversement which is more than a kinetic energy come
00:04:56and
00:04:57I'm going to tell you how many kinetic energy Joe is what mass K inversely
00:05:03proportional is so I'm going to tell you why I like kinetic energy
00:05:08nikaal nai hai. So, mujeh mask is ka cha hiye? X ka.
00:05:14Yeh pata hi ga hai chijain?
00:05:16Jinnon nai, kub ki physics ke kisi bhi chapter me yaya formula lag jata hai.
00:05:20Tumhara me shayad optics me to abhi tuk jorot naihi padi hooggi
00:05:23aur modern me bhi abhi tuk nahi jorot nai padi isli wata roo.
00:05:26Jisai maan lo. Yaha se dekho, joh elektronirinx padi leo taun ko
00:05:30mai pehle betai taur physics me kahi hi bhi lagta hoo.
00:05:33V equals to IR.
00:05:34Current ki value, series me current same hoota hai
00:05:39aur pehle dar me potential difference same hoota hai.
00:05:42Yeh pata hai?
00:05:43Agar series me hai, maan lo yeh do resistance hai.
00:05:48Yeh humne laga diya series me.
00:05:49Aur yahaan par ye voltage 10 volt.
00:05:52Yeh R1 aur ye R2.
00:05:54Agha series me hai, to current ki value same.
00:05:57Same.
00:05:58Agha, to yeh 10 volt yehaan batte ga?
00:06:00Aur yahaan.
00:06:01Matta batwara kis ka hona hai?
00:06:02Potential ka.
00:06:03Agha, to agar series me hai, to yeh wali value same.
00:06:06To V proportional to R.
00:06:08Kye directly proportional hai?
00:06:10Directly proportional hai hai?
00:06:11Toh pehle wale par, yeh first wale par,
00:06:15joh potential aega, is meh se.
00:06:17Proportional to R.
00:06:18Yari ki, jiske proportional hai,
00:06:20usi ka resistance.
00:06:21Toh yaha jayega R1.
00:06:23Khud ka hai hai, toh R1.
00:06:24Apon me total resistance.
00:06:26Total resistance.
00:06:27Sidha add karo.
00:06:28Series palander nai dekna hai.
00:06:30Sidha add karo.
00:06:31Into total voltage.
00:06:34Kis total voltage meh se,
00:06:36V1 ko kitra mila?
00:06:37Kya ki, yeh proportional hai.
00:06:38Yeh proportional hai,
00:06:40toh yahaan par R1.
00:06:41Acha, eisai hi,
00:06:42is wale par puchha jayega,
00:06:43toh is par V ki value kya aati?
00:06:45R2 upon me,
00:06:46R1 plus R2 into V total.
00:06:49Yeh kahi bhi lagayega.
00:06:52Hattata hoon isko.
00:06:54Hamaare paas,
00:06:55wame nai kya kiya?
00:06:56Ab dousra case liya.
00:06:57Yeh,
00:06:58haamare paas meh,
00:06:59doh resistance hai,
00:07:00aur shayar yeh,
00:07:02palander meh,
00:07:03judhaim hai,
00:07:03aur isse judhi hoi hai,
00:07:04yeh battery.
00:07:05Aray palander hai,
00:07:06toh V equal to R,
00:07:08R1 plus R1 plus R1 plus R1 plus R1.
00:07:38R2 plus R2,
00:07:39R4 gaya,
00:07:40yeh jayega high total.
00:07:44Inverse hoota hai,
00:07:44toh dousra ka,
00:07:45philis ka kahi par bhi lag jayega,
00:07:46formula 1 ke,
00:07:47power meh,
00:07:48energy meh,
00:07:49capacitor meh,
00:07:50ee mh,
00:07:50magnet,
00:07:51kahi bhi lag sakta hai,
00:07:52direct,
00:07:53agar total pata hai,
00:07:54aur kis chish ka bhtwara karna hai,
00:07:55toh inverse ka mtlab,
00:07:56dousra ke liya wohu chiz use karna hai.
00:07:58Toh yahi par hi wohu chiz dhekho.
00:07:59Kya kinetic energy,
00:08:01joh hai,
00:08:01woh mass ke inverse meh?
00:08:03Or yeh kinetic energy,
00:08:05joh hai,
00:08:05iske paas,
00:08:06aur iske paas,
00:08:06ismeh se toh aeegi.
00:08:08Total kinetic energy,
00:08:10pata hai,
00:08:10yeh kiuh hi toh kinetic meh jayega,
00:08:12ismeh se,
00:08:13iske paas kitana jayega,
00:08:14kinetic energy,
00:08:15halke wale ke paas,
00:08:16jada hooga.
00:08:17Toh inverse meh na,
00:08:19toh yeh wale ke liya,
00:08:20meh ne kis ka mass liya yeh?
00:08:21X ka,
00:08:22upon meh total mass,
00:08:23mx plus m y,
00:08:25into total,
00:08:27total kitana hai?
00:08:27Q.
00:08:28Acha,
00:08:28aysa hi hameh,
00:08:29agar x ke liya kama karna hai,
00:08:31toh y,
00:08:31kya ki inverse hai,
00:08:33toh yahaan jayega,
00:08:33yeh total mx plus,
00:08:35yeh ya,
00:08:35thodi na karna hai,
00:08:36bhiya,
00:08:36inverse meh hootay hai,
00:08:37bas aysa,
00:08:38isle yeh ban gaya,
00:08:39yeh kahi par bhi lag jayega,
00:08:40liko s ko.
00:08:41Acha,
00:08:42Acha,
00:08:47Acha,
00:08:48Acha,
00:08:49Acha,
00:08:50Acha,
00:08:51Acha,
00:08:52Acha,
00:08:53Acha,
00:08:54Acha,
00:08:55Acha,
00:08:56Acha,
00:08:57Acha,
00:08:58Acha,
00:08:59Acha,
00:09:00Acha,
00:09:01Acha,
00:09:02Acha,
00:09:03Acha,
00:09:04Acha,
00:09:05Acha,
00:09:06Acha,
00:09:07Acha,
00:09:08Acha,
00:09:09Acha,
00:09:10Acha,
00:09:11Acha,
00:09:12Acha,
00:09:13Acha,
00:09:14Acha,
00:09:15Acha,
00:09:16Acha,
00:09:17Acha,
00:09:18Acha,
00:09:19Acha,
00:09:20Acha,
00:09:21Acha,
00:09:22Acha,
00:09:23Acha,
00:09:24Acha,
00:09:25Acha,
00:09:26Acha,
00:09:27Acha,
00:09:28Acha,
00:15:41Then,
00:15:43thank you.
00:16:48I think it might be a little bit less than this, so it might be a little bit less than this.
00:16:53The standard deviation is 5.4 MHz.
00:16:57If this is 5.4 MHz, then how much is your daughter?
00:17:030.1.
00:17:18What does the recoil mean?
00:17:23If this is a start and rest, it's a nuclear.
00:17:28If the alpha is out, then the alpha is running.
00:17:34The momentum is coming.
00:17:36When the total momentum is coming, the total momentum is coming?
00:17:39If the total is zero, then the total is zero.
00:17:41If the alpha is here, then the alpha will go back.
00:17:44The bullet will fire.
00:17:47So, the speed will be asked.
00:17:49Kinetic energy?
00:17:50No.
00:17:51The speed will be enough.
00:17:52So, if I take the kinetic energy for daughter and nuclei, how much will it be?
00:17:575.5 minus 5.4.
00:18:00So, it will be 0.1 MHz.
00:18:03And this value is half MHz.
00:18:07The speed is half MHz.
00:18:09So, this value is half MHz.
00:18:11How do you understand?
00:18:135.5 minus 5.4 ish?
00:18:16ove-1.
00:18:17It will be 0.1 ish.
00:18:18Now, if there is half MHz.
00:18:19If you have 2.2, 1.5, which is MHz?
00:18:20Do not have a nuclear, the maximum value of M ish.
00:18:22Now, this value of M ish.
00:18:23So, what's more than you have to draw?
00:18:24The value of M ish.
00:18:25Do not have a nuclear nuclear nuclear, it'sh.
00:18:26Do not have a nuclear nuclear, it'sh.
00:18:27Do not have a nuclear nuclear nuclear, it'sh.
00:18:28half 216 am u
00:18:35unit SI not here
00:18:38v square equals to 0.1
00:18:4110 to the power 6
00:18:43calculation game
00:18:45this is SI in SI
00:18:48this is SI in SI
00:18:49this is SI in SI
00:18:511 mu proton
00:18:54mass
00:18:56proton mass is SI
00:18:58here we go
00:19:00here we go
00:19:02108
00:19:03108
00:19:05AMU
00:19:061.6
00:19:0810 to the power
00:19:09minus 27 kg
00:19:12this is SI
00:19:13now we solve
00:19:14this is
00:19:16minus 13
00:19:18minus 1
00:19:19minus 12
00:19:21su
00:19:25n
00:19:27m
00:19:2812
00:19:29do
00:19:31m
00:19:42I will not get out of the way.
00:19:44It will get out of the way.
00:19:56What?
00:19:58Recoil.
00:20:02Daughter, daughter.
00:20:04Total.
00:20:06Recoil speed,
00:20:12kinetic energy,
00:20:145.5,
00:20:165.4,
00:20:181.1,
00:20:201.5,
00:20:221.5,
00:20:241.5,
00:20:261.5,
00:20:281.5,
00:20:301.5,
00:20:321.5,
00:20:341.5,
00:20:352.5,
00:20:371.5,
00:20:3910 to the power.
00:20:5910 to the power.
00:20:5910 to the power.
00:21:2910 to the power.
00:21:5910 to the power.
00:22:01Next question.
00:22:0610 to the power.
00:22:1310 to the power.
00:22:2010 to the power.
00:22:2710 to the power.
00:22:3410 to the power.
00:22:4110 to the power.
00:22:4810 to the power.
00:22:5010 to the power.
00:22:5710 to the power.
00:22:5910 to the power.
00:23:0110 to the power.
00:23:0810 to the power.
00:23:1010 to the power.
00:23:11When initially it was at rest, what fraction of, what fraction of energy liberated in this
00:23:34decay, used in kinetic energy of daughter nuclei?
00:23:55What fraction of energy liberated in this decay is used in kinetic energy of daughter
00:24:01nuclei?
00:24:02It's a very easy question.
00:24:04It's coming.
00:24:05I want to answer the answer.
00:24:08What?
00:24:31What?
00:24:32What?
00:24:33What?
00:24:34What?
00:24:36What?
00:24:37What?
00:24:38What?
00:24:39What?
00:24:40What?
00:24:41What?
00:24:42What?
00:24:43What?
00:24:44What?
00:24:45What?
00:24:46What?
00:24:47What?
00:24:48What?
00:24:49What?
00:24:50What?
00:24:51What?
00:24:52What?
00:24:53What?
00:24:54What?
00:24:55What?
00:24:56What?
00:24:57What?
00:24:58What?
00:24:59What?
00:25:00What?
00:25:01What?
00:25:02What?
00:25:03What?
00:25:04What?
00:25:05What?
00:25:06What?
00:25:07What?
00:25:08What?
00:25:09What?
00:25:10What?
00:25:11What?
00:25:12What?
00:25:13So, into Q, this is why it goes here?
00:25:18This daughter's kinetic energy, which is the total part of the total of the total part?
00:25:23Oh, 0.02?
00:25:27If 2 is gone, then 2 upon 100 is 0.02.
00:25:30This is the total part of the total part of the total part.
00:25:36So, we have to get rid of the total part of the total of the total of the total of the total of the total of the total.
00:25:43The kinetic energy daughter's total is 0.02.
00:25:46All of us have come here.
00:25:48I have read it.
00:25:49I have read it.
00:25:50I have read it.
00:25:51It's 216.
00:25:52What is the difference?
00:25:53What is the difference?
00:25:54What is the difference?
00:25:554 upon 200.
00:25:571.
00:25:582.
00:25:593.
00:26:004.
00:26:024.
00:26:035.
00:26:045.
00:26:055.
00:26:066.
00:26:076.
00:26:086.
00:26:096.
00:26:107.
00:26:117.
00:26:126.
00:26:136.
00:26:14hmm
00:26:17दो पदाय जाएगा वभ Dawn
00:26:22अंधने सागे पढ़ोगे all the
00:26:27ob audio the next ray all a eg sit-up
00:26:29email भाल
00:26:39but that's your topic one more than a day Thursday Friday to go over here
00:26:56but I next is like
00:26:59emited particles
00:27:12emited particles
00:27:18emited particles
00:27:27emited particles
00:27:28what do you think
00:27:29dois
00:27:292HE4++ atom or 2HE4 helium nuclei.
00:27:39This is a problem.
00:27:42In both of them, proton 2 and neutron 2 are because this electron is zero.
00:27:51They are not in nuclei and they are in plus plus.
00:27:59In alpha emission,
00:28:14in alpha emission,
00:28:20parent nuclei and daughter nuclei are isodiapher.
00:28:35Isodiapher
00:28:42Parent, nuclear and daughter nuclei are isodiapher.
00:28:46Isodiapher is the same?
00:28:48Neutron and proton difference is the same.
00:28:52This is another form.
00:28:53A minus 2Z is the same.
00:28:55So let's though it should be known as this.
00:28:58We have made this,
00:28:59we wrote this,
00:29:00we wrote this 200
00:29:02and we wrote this 94.
00:29:04What is this which means?
00:29:06We wrote this alpha particle.
00:29:08So this is like Y.
00:29:09So what we wrote this 1 and 2HE4.
00:29:14So how much will this be?
00:29:16This is 200,
00:29:18this is 4.
00:29:19How much will this half be?
00:29:20196.
00:29:22This is 92.
00:29:24This is 92.
00:29:26Okay.
00:29:28Isodiaphyr as a-2z.
00:29:30This is a-2z.
00:29:32This is a-2z.
00:29:36This is a-2z.
00:29:38This is proton and neutron difference.
00:29:40A value is 200.
00:29:42This is 2z.
00:29:44This is 188.
00:29:50188.
00:29:51This is 12.
00:29:53A value is 196,
00:29:56minus 2z.
00:29:57184.
00:29:59This is 12.
00:30:01This is 12 values.
00:30:03This is ISO diaphyr.
00:30:05This is 13.
00:30:07So,
00:30:09this is not a value.
00:30:11This is 3200.
00:30:13This is 13.
00:30:15This is 13.
00:30:17It's 13.
00:30:19This is 13.
00:30:21Hey, you have to do that.
00:30:23I'm going to do that.
00:30:25Okay.
00:30:27Okay.
00:30:29Okay.
00:30:31Okay.
00:30:33Okay.
00:30:35Okay.
00:30:51in
00:30:58in nuclear reaction
00:31:00in nuclear reaction
00:31:03mass number
00:31:09and
00:31:13momentum
00:31:15mass number
00:31:19and momentum
00:31:20is conserved
00:31:21but mass is not conserved
00:31:29but mass is not conserved
00:31:33language best question
00:31:34mass number
00:31:37conserved
00:31:37conserved
00:31:37total
00:31:42mass number
00:31:43atomic mass number
00:31:45same
00:31:45LHS
00:31:46or RHS
00:31:47mass conserved
00:31:49mass conserved
00:31:51mass
00:31:52mass
00:31:54Gemini
00:31:58mass
00:31:59mass
00:31:59mass
00:32:00mass
00:32:01Wall
00:32:03mass
00:32:08mass
00:32:09according energy
00:32:11energy
00:32:13mass
00:32:15mass
00:32:17mass
00:32:19and energy
00:32:21atoms
00:32:23next
00:32:25beta
00:32:27particles
00:32:29alpha particles
00:32:39alpha particles
00:32:41emitted by
00:32:47a nuclei
00:32:51alpha particles
00:32:53emitted by nuclei
00:32:55having
00:32:59same speed
00:33:07from same nuclei
00:33:11from same nuclei
00:33:19jihana se suna
00:33:21kya hai is ka matlab
00:33:23agar uranium 235 hai
00:33:25jihse maanlo uranium to shoda hai
00:33:27ye hai
00:33:29jis ka atomic mass number 200
00:33:31iisne
00:33:3310 alpha nikka
00:33:36x
00:33:37This is the second and the third one is the character.
00:33:40All the alpha is a speed of alpha emission.
00:33:43But in beta there is a story different.
00:33:46Go ahead.
00:33:50Next point.
00:33:53Next.
00:33:54Here we have this is x and this is 200.
00:33:58Here we have written that this is 94.
00:34:01Here we have 4 alpha particles.
00:34:051 alpha is a value.
00:34:081 is 4.
00:34:104 is 16.
00:34:12Here we have 16 minus.
00:34:15184.
00:34:18184.
00:34:20How much?
00:34:221 is 2.
00:34:234 is 8.
00:34:25This is 86.
00:34:27This is more than alpha.
00:34:292 alpha is 4.
00:34:304 is 4.
00:34:31And the speed is the same.
00:34:32If it is 1 nucleic.
00:34:34Second.
00:34:35Beta particle.
00:34:37Second.
00:34:38Beta particle.
00:34:391.
00:34:41Three.
00:34:421.
00:34:432.
00:34:44Fealing.
00:34:452.
00:34:482.
00:34:492.
00:34:512.
00:34:522.
00:34:533.
00:34:543.
00:34:552.
00:34:563.
00:34:574.
00:34:581.
00:34:592.
00:35:002.
00:35:012.
00:35:023.
00:35:04So,
00:35:06electron-like particle is two types of particles.
00:35:13Negative beta and positive beta.
00:35:16If you don't say anything,
00:35:22which is the negative particle?
00:35:26If you say that someone has a beta particle,
00:35:28it is a negative electron.
00:35:30If you write it,
00:35:32it will be mentioned.
00:35:34How do you write it?
00:35:36It is like electron.
00:35:38It is like a mass.
00:35:40It is like a mass.
00:35:42It is like a proton.
00:35:44It is like a proton.
00:35:46It is like a mass.
00:35:48The electron's mass is very low.
00:35:50This is like a mass.
00:35:52It is like a zero.
00:35:54It is like a negative.
00:35:56Or,
00:35:58it is like a beta.
00:36:00It is like a negative.
00:36:02A positive.
00:36:04This is like a mass.
00:36:06It is like a mass.
00:36:08This is not really noise.
00:36:10It is like a mass.
00:36:12It is like a proton.
00:36:14The like,
00:36:15the same polarizing factor is on the star.
00:36:17और यह चार्च कहेगा प्लस या फिर इसको ऐसे लिका जा सकता है यह बीटा उपर जीरो और यह प्लस
00:36:24कुछ न बोले तो नेगेटिव बीटा ही लेना है
00:36:47बड़ा आगे स्ट्रेट पर लिखें इसके लिए
00:36:55इसके लिए
00:36:55For a stable nuclei
00:37:15for a stable nuclei
00:37:21n by p
00:37:25value
00:37:26n by p
00:37:32neutron or proton
00:37:33value
00:37:35should be around
00:37:371 to 1.5
00:37:45अगर कई पर
00:37:47अच्छा ये radioactivity material कम निकल रहे हैं
00:37:49जब nuclei unstable है
00:37:51stability ये पहचान है
00:37:53कि n और p का ratio एक से लेकर
00:37:551.5 के बीच में होना चाहिए
00:37:57और जहां पर ये ratio नहीं है ना
00:37:59वो unstable है और unstable है
00:38:01तो कुछ ना कुछ particle निकालेगा
00:38:03और अगर मेर से पूचा जाए
00:38:05कि और n और p का ratio अगरभण होता है
00:38:08तो कौल सा पार्टिकल निकलता है
00:38:09तो हम बोलेंगे बीटा पार्टिकल
00:38:11अब कब क्या होता है
00:38:13इफ इसमें लिखा है
00:38:151 to 1.5
00:38:16इफ
00:38:17nuclei is unstable
00:38:23if nuclei is unstable
00:38:27then
00:38:30negative
00:38:33negative and positive beta particle
00:38:37negative and positive beta particles
00:38:43are emitted
00:38:44after conversion of
00:38:55after conversion of
00:38:59neutron
00:39:02into proton
00:39:06and vice versa
00:39:10क्या चीज़े ध्यान से सुने
00:39:16यार n और p का ratio बनाना है
00:39:18अगर n की value जादा
00:39:20देखो ध्यान से पहला वाला start कर रहा हूँ
00:39:22देखना
00:39:23अभी लिखना मत
00:39:24अगर अगर n की value पी से जादा है यारी की neutron और proton का ratio बहुत बढ़ गया
00:39:32अगर अगर अन की value अगर किसी element में की न्यूकलाई में n की value जादा है तो n की value बहुत जादा हो जाएगी तो ये ratio बढ़ जाएगा ये ratio बढ़ जाएगा तो stable नहीं होगा
00:39:42पर स्टेबल नहीं होगा तो stability के लिए वो बीटा पार्टिकल निकालेगा तो यार क्या करना पड़ेगा जो ज्यादा है उसको कम करना पड़ेगा जो का में इसको मतलब neutron को किसमें
00:39:51करना है proton neutron neutron proton गैकन अचनी नियू ट्रोन यहां क्या है
00:40:08होगा यह ए यह जे roast क्अ कर ओ ऑधन उन जी Demokकर ओ ऑजीन और ईजी रो च� आरे मर्ट मेरी जी रॉई
00:40:16Look, 1 and 1 is done, so you can write the mass which is very low, so this is 0 and this is 1, so this is negative beta, but this is not negative beta, so this is negative, so this is an anti-neutrino,
00:40:36so this is an extra particle, so this is an anti-neutrino, so this is an anti-neutrino, so this is an anti-neutrino,
00:41:01so now I have to add i-neutrino, negative beta particle, on the negative beta particle,
00:41:06to be neutral
00:41:13to be neutral
00:41:18or to be neutral
00:41:25to be neutral
00:41:28to be neutral
00:41:33Second, if the value is non-cuals, if the value is non-cuals, the value is smaller then I would
00:41:52be bigger and less minus.
00:41:53can work and I am happy one one I take it and I go one or is zero or a balance one or one to get
00:42:02three to zero energy actually a one year zero to their can achieve plus one plus one array
00:42:08mass zero electron so even a for you are a job be like positive beta a face a particle
00:42:16a person who wrote this is positive neutrino negative negative anti-sense
00:42:24so negative anti-neutrino and neutrino so n by p ratio to balance
00:42:30the beta particle will be removed.
00:48:28So when negative beta particles are left,
00:48:31then the difference is not changing,
00:48:33then the difference is changing.
00:48:35So the difference is changing.
00:52:58So, this will be the difference in the range, and the graph has also been asked here,
00:53:04the graph has also been asked here, and here we have written the speed, and here we have written the numbers.
00:53:11What does this mean? The numbers.
00:53:13So, we know that the speed of continuous spectrum, in thermal, there are many chapters.
00:53:18Continuous spectrum means that this number is so much of the speed,
00:53:23and this speed is so much of the speed.
00:53:25Here it may be.
00:53:28Some of this speed is small.
00:53:31Some of this speed is small.
00:53:34Some of this speed will be done.
00:53:38The speed of continuous speed will be maximum.
00:53:48The number of beta, which time will be single.
00:53:50This is the number of beta.
00:53:52Alpha graph is like this, fixed, if it is enough, it is enough, so it is enough for all this.
00:54:03This is continuous, this is discrete, this is a line spectrum.
00:54:22So this is a line spectrum, this is a line spectrum, so it is enough for all this.
00:54:43It is enough for all this.
00:55:04I don't know.
00:55:34I will play with you. Don't play with me.
00:55:38I will play with you.
00:55:40So, we will play with you.
00:55:42We will play with you.
00:55:44The kids will be very angry.
00:55:46I will play with you.
00:55:54No, no, the car.
00:55:56Is this the car accident?
00:56:06Is this not happening?
00:56:08I will play with you.
00:56:10Like, we are playing with you.
00:56:20I am going to play with you.
00:56:22We're going to be walking around.
00:56:24So, let's see.
00:56:27Third, last.
00:56:30Gamma particle.
00:56:36Gamma particle.
00:56:49it is EM wave
00:56:54break it may photon
00:56:59it is EM wave break it may photon
00:57:03gamma photon
00:57:04which is emitted after
00:57:09alpha and beta decay
00:57:19which is emitted after alpha and beta decay
00:57:24यह ध्यान से सुने जब भी alpha और beta decay होगा ना तो
00:57:28nuclear हो जाता है excited
00:57:30माल लो हमारे पास में यह वाला यह आ गया
00:57:34यहाँ पर लिख दिया हमने a और यहाँ लिख दिया
00:57:36z यहाँ पर जैसे ही मैंने यह star लिखा इसको हम बोलते हैं
00:57:41यह है excited nuclei यह star लगा है इसका मतों क्रेल कारवन नहीं है
00:57:44अना excited nuclei है तो यहाँ पर यह x a z यह दिया हुआ है excited
00:57:54nuclei है अब excited है यानि के energy थोड़ी से कम करनी पड़े है और energy
00:57:58निकालनी है energy photon क्या कर दो gamma photon अरे photon का
00:58:04mass बहुत कम द्यूर्स मास तो zero और chargeless photon तो chargeless थे
00:58:10photoelectric तो जो यह y बनेगा उसमें a अभी भी वही है और z अभी
00:58:16भी वही है बस यह star अट जाएगा जब भी alpha और btd का होगा उसके
00:58:22बाद में nuclei जो excited हो जाता है कुछ energy निकाल कर वो
00:58:27normalize हो जाता है जो energy निकाली है वो यह star से यह normal हो
00:58:31हुए है gamma photon में a और z में कोई फर्क नहीं पड़ता है लिख लो
00:58:38अचा एक चीज़ और एक नोट लिख लेता है
01:04:23Zeis,요ani.
01:04:26Saraya, threats.
01:04:29you
01:04:32and you will like it if it's a key value between 202 and
01:04:40I don't know if I'll party call right jack at them going to check at them going to 206
01:04:45and I'll be doing a day may call change may you have a electron is a particle alpha
01:04:51in 4, 202. Gamma,
01:04:53energy. So, this is how it goes.
01:04:55202. This is our first answer.
01:04:58Alpha
01:04:59current Z is 2.
01:05:01So, what will be? 98.
01:05:03Negative
01:05:04Z is more than 99.
01:05:08Then, 2
01:05:09is 97.
01:05:11Energy change
01:05:12doesn't happen. 97 answer.
01:05:21ELP
01:05:29ELP
01:05:30ELP
01:05:32ELP
01:05:32MODUL
01:05:33ELP
01:05:34MODUL
01:05:35ELP
01:05:51ELP
01:05:52ELP
01:06:35Second, A key value?
01:06:41A key value?
01:06:431, 96
01:06:45A
01:06:47Karine Ravara
01:07:051, 96
01:07:09A key value?
01:07:101, 96
01:07:11Alpha
01:07:12निकलेगा
01:07:12तो यहाँ
01:07:134-1, 96
01:07:16यहाँ पर
01:07:17beta में
01:07:17कोई change नहीं
01:07:18तो A key value
01:07:19कितनी आ गई?
01:07:201, 8
01:07:21तो A key value
01:07:22तो आ गई
01:07:221, 96
01:07:24ठीक है
01:07:25यहाँ पर यह
01:07:28100 आया
01:07:30Z की value भी निकालनें
01:07:31चलो और चलतें आगे
01:07:32196 में से
01:07:344 जाएगा
01:07:35192
01:07:364 जाएगा
01:07:37188
01:07:38beta में
01:07:39कोई change नहीं
01:07:40gamma में
01:07:41कोई change नहीं
01:07:42तो D की value भी
01:07:43188
01:07:45यार C चाहिए
01:07:48यह 100 है
01:07:49यह 100 है
01:07:50तो यहाँ beta
01:07:51अलपा निकलने पर
01:07:5398
01:07:54एक और अलपा निकलने पर
01:07:5596
01:07:56beta कुछ नहीं दिया है
01:08:00negative
01:08:01और negative में एक
01:08:03बड़ेगा
01:08:0497
01:08:05और यह भी कितना आएगा
01:08:0697
01:08:07तो C की value 97
01:08:09Z की value
01:08:12यार यह 100 है
01:08:18beta के बाद 100 बना है
01:08:21यानि कि एक बड़ा होगा
01:08:23negative के बाद 100 बना है
01:08:26यानि कि एक बड़ा होगा
01:08:27तो यह होगा
01:08:2899
01:08:29और अलपा से दो कम होकर यह बना होगा
01:08:34तो यह 101
01:08:35तो Z की value
01:08:37101
01:08:37101
01:09:07100 बड़ा होगा
01:09:12100 बड़ा होगा
01:09:13100 बड़ा होगा
01:09:15100 बड़ा होगा
01:09:16100 बड़ा होगा
01:09:17100 बड़ा होगा
01:09:18100 बड़ा होगा
01:09:19100 बड़ा होगा
01:09:20100 बड़ा होगा
01:09:21100 बड़ा होगा
01:09:22100 बड़ा होगा
01:09:23100 बड़ा होगा
01:09:24100 बड़ा होगा
01:09:25100 बड़ा होगा
01:13:148.
01:13:168.
01:13:188.
01:13:208.
01:13:228.
01:13:248.
01:13:268.
01:13:288.
01:13:308.
01:13:328.
01:13:408.
01:13:419.
01:13:42अगर अकेला अलफा निकल रहा होता तो 92 में से 16 माइनस होकर 76 बसता लेकिन 82 है छे बड़ा है छे बड़ा है जे बड़ता है नेगेटिव बीटा के कारण तो 6 भी नेगेटिव बीटा होंगे इसलिए 6 बड़ा है तो अंसर आजाएगा अलफा की वैल्यू 8 और बीटा की वैल
01:14:12को चेंज करता है ना तो बीटा ना गामा तो अलफा में जो चेंज आया होगा ए में जो चेंज आया होगा उससे पता चल जाए कितना अलफा है फिर जैड में चेंज अलफा के कारण निकाल लो और फाइनल में कितना प्लस या मैनस है उससे पता चल जाए अच्छा अगर य
01:14:42so this is 4 positive beta
01:14:45okay this radio activity part is over
01:14:49rather food and sody
01:14:52n equals to n not part
01:14:55so we have to get rid of it
01:14:58so we don't have to get rid of it
01:15:01n equals to n not
01:15:04so if we don't have to get rid of it
01:15:07then we don't have to get rid of it
01:15:10huh
01:15:12gold wala to woe he
01:15:16atom woe to padehenge hem
01:15:18chemistry wala portion he
01:15:20weather for sorry wala
01:15:22half time
01:15:24mean time
01:15:26wo wala wo wala part
01:15:28hata hai wo wala
01:15:30bilkul bhi ns 86m 0
01:15:32मैं कुछ questions दे रहा हूं
01:15:34पहले भी दिये होंगे page number
01:15:36नहीं दिये
01:15:38page number 203 में
01:15:40exercise 1
01:15:42page number 203
01:15:44first
01:15:46one two
01:15:48four
01:15:50six
01:15:52ten eleven
01:15:54ten eleven
01:15:56fifteen
01:16:06sixteen
01:16:08nineteen
01:16:12twenty one twenty two
01:16:14twenty one twenty two
01:16:16twenty four
01:16:26twenty five
01:16:28twenty six
01:16:30twenty seven
01:16:32twenty eight
01:16:34twenty nine
01:16:36thirty one
01:16:38thirty one
01:16:46thirty two
01:16:48thirty two
01:16:50thirty five
01:16:52thirty six
01:16:54forty
01:16:56cut
01:16:58thirty
01:16:59forty
01:17:00cut
01:17:01thirty
01:17:02forty
01:17:03cut
01:17:04thirty
01:17:05forty
01:17:06one
01:17:07one
01:17:08two
01:17:09three
01:17:10two
01:17:11three
01:17:12two
01:17:13three
01:17:14two
01:17:15three
01:17:16two
01:17:17three
01:17:18two
01:17:19three
01:17:20six
01:17:21eight
01:17:22nine
01:17:23nine
01:17:25ten
01:17:27eleven
01:17:28twelve
01:17:29eleven
01:17:30ten
01:17:31eleven
01:17:32nine
01:17:33eighteen
01:17:35nineteen
01:17:37eighteen
01:17:38eighteen
01:17:39eighteen
01:17:40nineteen
01:17:41nineteen
01:17:42exercise
01:17:43fourth
01:17:44mein
01:17:45three
01:17:46five
01:17:47nine
01:17:48eleven
01:17:50five
01:17:51nine
01:17:52eleven
01:17:53five
01:17:54nine
01:17:55eleven
01:17:57five
01:17:58nine
01:17:59eleven
01:18:00seven
01:18:01seven
01:18:02eight
01:18:03un
01:18:06one
01:18:08two
01:18:09three
01:18:10un
01:18:13two
01:18:14three
01:18:16un
01:18:17un
01:18:19un
01:18:20un
01:18:22un
01:18:23un
01:18:24un
01:18:25un
01:18:26un
01:18:27un