00:06 Unit-1 of Engineering Physics focuses on Quantum Mechanics 02:23 Quantum Mechanics is the study of microscopic particles and their behavior. 06:46 The photoelectric effect had its roots in classical mechanics but later became a topic of study in quantum mechanics. 09:00 Black body absorbs all wavelengths of radiation. 13:22 The spectrum of black body radiation shows different temperatures in the graph. 15:31 The intensity of radiation is highest at a specific wavelength 19:40 Energy distribution in D spectrum of black body 21:29 Energy emitted in a black body is directly proportional to the fourth power of absolute temperature. 25:24 Temperature is inversely proportional to wavelength (lambda) 27:38 Classical mechanics cannot fully explain black body radiation. 31:48 Quantum mechanics studies the discrete nature of energy in oscillators. 33:54 Oscillators absorb energy in discrete packets 38:11 The formula for radiation can be applied to any wavelength. 40:29 The concept of small wavelength and its effect on the overall value is explained 44:29 The formula for A's power of x is +x + x²/2 46:49 Frequency and wavelength are inversely proportional 50:46 D radiation refers to modified radiations with changed wavelengths 52:49 Quantum mechanics and the concept of wavelength shift in collisions 57:22 After collision, the energy of the electron must have increased. 59:06 The energy and momentum of a photon decrease when its frequency decreases. 1:04:04 Momentum is a vector quantity and cannot be directly added. 1:07:02 Completing the equation with C and discussing the symbols for frequency 1:16:10 The energy of photons and electrons can be calculated using the equation mc² 1:20:13 Cancellation of terms in quantum mechanics equations 1:25:47 The rest mass of a body is its mass when at rest, but it changes when in motion around the velocity of light. 1:28:12 The velocity of light and its equation derived 1:36:10 Wavelength of photon remains constant for different angles of incidence 1:39:17 The value of δ is given by δ = ha / m 1:44:43 The formula for the energy of an electron is Lambda - 1 / Lambda Death. 1:47:15 The value of θ determines the maximum and minimum values. 1:51:27 Percentage of wavelength change in quantum mechanics is very small but can be detected. 1:54:07 The quantum shift formula is used to calculate the value of Lambda. 1:59:11 After scattering, the wavelength doubles compared to the initial wavelength. 2:01:53 Calculating the wavelength using the formula c/lambda 2:07:52 The topic is about Vav particle validity and the duality of radiation. 2:10:18 Radiation exhibits both particle and wave properties 2:14:40 The energy of a photon can be calculated using Einstein's mass-energy relation. 2:18:39 The formula for calculating the wavelength of a material particle is λ = h / (mv) 2:23:18 The relation between temperature and energy is described by a formula. 2:26:46 The relationship between energy and charge 2:32:01 The wavelength of a particle at rest becomes infinite. 2:33:57 The wavelength becomes zero when the particle is not in motion 2:38:30 The formula 12.28/√v gives the answer in Angstrom 2:41:34 The formula tells you how only electrons 2:47:53 Calculate the Broglie wavelength associated with a Proton 2:50:37 The derivation of De Broglie wavelength formula for particles moving with one-twentieth the velocity of light. 2:55:33 Calculate the de Broglie wavelength by substituting the given values into the formula 2:57:45 Practice the concepts and refer to the notes for further explanation
@@gamingwithjatinrajput8345 Bhai ye meri learnings hai ..... Matlab as a short notes pls maine koi itni achi timeline nahi di... Hai ab bo logon ke liye useful hai tho me kya karun yr.
One Shot Pdf Notes available in App for free ...play.google.com/store/apps/details?id=co Physics One Shot playlist th-cam.com/play/PL-vEH_IPWrhAaCl8Gkc3Vuxt6Fc50sB7-.html&si=Vk-yF5IiEvvg0TLW
Dive into Quantum Mechanics vibes! 🌀 Explore classical vs. quantum mechanics in #EngineeringPhysics with Gulshan Sir at GateWay Classes! 🎥 Unravel the mysteries and join the quantum world! #AKTU #PhysicsFun
Time Stamp: 1] 00:15 => Syllabus 2] 03:30 => Inadequacy of classical Mechanics 3] 08:10 => Black Body and Black Body Radiations i] 22:54 => Stefan's Law ii] 24:40 => Wien's Laws iv] 28:08 => Rayleigh - Jeans Law 4] 29:05 => Planck's Radiation Law 5] 46:21 => Compton Effect
When temperature is increase the graph shifted upwards but lambda max is shifted leftwards that means it is reduced i think you are confused in both horizontal and vertical displacement
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Unit 2 bhi upload kar dijiye sir
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Bhai unit 1 ka one shot ka part 2 link send krna
Search krne pr aa nhi rha h
@@a2shorts633 bhai mila iska part 2
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00:06 Unit-1 of Engineering Physics focuses on Quantum Mechanics
02:23 Quantum Mechanics is the study of microscopic particles and their behavior.
06:46 The photoelectric effect had its roots in classical mechanics but later became a topic of study in quantum mechanics.
09:00 Black body absorbs all wavelengths of radiation.
13:22 The spectrum of black body radiation shows different temperatures in the graph.
15:31 The intensity of radiation is highest at a specific wavelength
19:40 Energy distribution in D spectrum of black body
21:29 Energy emitted in a black body is directly proportional to the fourth power of absolute temperature.
25:24 Temperature is inversely proportional to wavelength (lambda)
27:38 Classical mechanics cannot fully explain black body radiation.
31:48 Quantum mechanics studies the discrete nature of energy in oscillators.
33:54 Oscillators absorb energy in discrete packets
38:11 The formula for radiation can be applied to any wavelength.
40:29 The concept of small wavelength and its effect on the overall value is explained
44:29 The formula for A's power of x is +x + x²/2
46:49 Frequency and wavelength are inversely proportional
50:46 D radiation refers to modified radiations with changed wavelengths
52:49 Quantum mechanics and the concept of wavelength shift in collisions
57:22 After collision, the energy of the electron must have increased.
59:06 The energy and momentum of a photon decrease when its frequency decreases.
1:04:04 Momentum is a vector quantity and cannot be directly added.
1:07:02 Completing the equation with C and discussing the symbols for frequency
1:16:10 The energy of photons and electrons can be calculated using the equation mc²
1:20:13 Cancellation of terms in quantum mechanics equations
1:25:47 The rest mass of a body is its mass when at rest, but it changes when in motion around the velocity of light.
1:28:12 The velocity of light and its equation derived
1:36:10 Wavelength of photon remains constant for different angles of incidence
1:39:17 The value of δ is given by δ = ha / m
1:44:43 The formula for the energy of an electron is Lambda - 1 / Lambda Death.
1:47:15 The value of θ determines the maximum and minimum values.
1:51:27 Percentage of wavelength change in quantum mechanics is very small but can be detected.
1:54:07 The quantum shift formula is used to calculate the value of Lambda.
1:59:11 After scattering, the wavelength doubles compared to the initial wavelength.
2:01:53 Calculating the wavelength using the formula c/lambda
2:07:52 The topic is about Vav particle validity and the duality of radiation.
2:10:18 Radiation exhibits both particle and wave properties
2:14:40 The energy of a photon can be calculated using Einstein's mass-energy relation.
2:18:39 The formula for calculating the wavelength of a material particle is λ = h / (mv)
2:23:18 The relation between temperature and energy is described by a formula.
2:26:46 The relationship between energy and charge
2:32:01 The wavelength of a particle at rest becomes infinite.
2:33:57 The wavelength becomes zero when the particle is not in motion
2:38:30 The formula 12.28/√v gives the answer in Angstrom
2:41:34 The formula tells you how only electrons
2:47:53 Calculate the Broglie wavelength associated with a Proton
2:50:37 The derivation of De Broglie wavelength formula for particles moving with one-twentieth the velocity of light.
2:55:33 Calculate the de Broglie wavelength by substituting the given values into the formula
2:57:45 Practice the concepts and refer to the notes for further explanation
Brother aapne itni mehnat Kari uske liye bahut bahut shukriya
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Bahut bahut dhanyawad Bhai ❤
26:00 26:02 26:03
@@gamingwithjatinrajput8345 Bhai ye meri learnings hai ..... Matlab as a short notes pls maine koi itni achi timeline nahi di... Hai ab bo logon ke liye useful hai tho me kya karun yr.
Devmanush
Sir aaj ke time me aap jesa koi nhi hai jo ki engineering ke student ko aap se jyada help ker sake .
Thank you sir 🎉🎉
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Is it useful for nagpur University also .....
Please reply....!!!
REC Banda helping sir
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This is best lecture for us sir🙏 Thanks alot for this ❤ We needed a teacher like you 🥰
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Too good explationation🙏
Just as I wanted before exam.
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Sir you and your team is best ❤❤❤ aap nahi hota tho hamara kya hota ❤ love you sir 🎉
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This surprise is really very nice for us 🎉🎉🥳🥳
Which year now
Compton effect 46:23 to 1:52:25 and numerical end at 2:09:00
thanks
Please upload all the one shot of engineering physics as soon as possible it's a humble request to gateway classes team ❤️🙇♂️
One Shot Pdf Notes available in App for free ...play.google.com/store/apps/details?id=co
Physics One Shot playlist
th-cam.com/play/PL-vEH_IPWrhAaCl8Gkc3Vuxt6Fc50sB7-.html&si=Vk-yF5IiEvvg0TLW
You are the best teacher
This is what we called next level❤❤❤
Thank you so much sir. This was really needed. 😃😊
Most welcome 😊
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@@gatewayclassessir one shot of wave optics
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आप जैसा कोई ना 😊
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Gulshan sir so talented❤
Sir , recently I joined you so, you are fabulous teacher ❤
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Thank u very very much sir we need this lecture ❤❤❤ you're the best ❣️
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Tm aktu ki student ho ?
Hlo ek question h
U are explaining clearly than most of professors sir
to collage kyon join kiya inhi sab se degree lele
@@aayushbonslebakchodi Mt kr lawde...
Dive into Quantum Mechanics vibes! 🌀 Explore classical vs. quantum mechanics in #EngineeringPhysics with Gulshan Sir at GateWay Classes! 🎥 Unravel the mysteries and join the quantum world! #AKTU #PhysicsFun
sir plz provide a lecture for optical fiber and laser.
Sir aapne students ke liye bahut kuch Kiya thankyou so much sir
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All rounder sir 😅😅😅
gateway classes is best... thankyou so so so so infinite so much sir...
Sab bachho ka pyar hai........jiski vajah se hum bahut mehnat kar pate hn
Soooo beutiful sooo aligate Just looking like a wow😊
Ye to kmal ho gya 😅
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Sir calculator ke upar bhi video bana deejiye please
Thank you sir ji ❤
Thank you sir lecture is very helpful ❤
Time Stamp:
1] 00:15 => Syllabus
2] 03:30 => Inadequacy of classical Mechanics
3] 08:10 => Black Body and Black Body Radiations
i] 22:54 => Stefan's Law
ii] 24:40 => Wien's Laws
iv] 28:08 => Rayleigh - Jeans Law
4] 29:05 => Planck's Radiation Law
5] 46:21 => Compton Effect
Thank you 😊🙏🏻
but ..laws to syllabus m mentioned hi ni h!!!
Most be like sir great teaching sir❤
thank you sir, very helpful vedio😊
thanks sir.........very nice explaination❣
Thank u sir also provided the important video
Compton effect ke last m both side c se multiply karna h ek side he karke solve kardiya
best teaching sir❤❤
waah waah sir ji
Thankyou very much sir 🎉🎉❤❤❤❤
46:19 Crompton effect
Sir ,you have unique talents
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Guru ji aap toh cha gye🎉🎉❤❤❤
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B.Tech(Sem-I +Sem-II) COMBO : All Subjects
mvxiz.on-app.in/app/oc/413308/mvxiz?Dcopy-link%26Dtutor-course-referral%26Dcourse-overview-app
Thank u so much sir, it helped alot ✨
Heartly thanks sir ❤❤❤❤
It's very useful sir 😁
please upload the oneshot of unit 2 and 3 also it will really be helpful
Thank you for doing physics one shots!
dhaniyawad sir
Maja aagya sir
Rgpv ke liye same h kya syllabus
Just super ❤❤💯
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Thank you sit
Agle Anand Kumar hamare Gulshan sir ❤❤❤❤❤❤❤❤🎉🎉🎉🎉🎉
Well exlplained
Let's start
Good job sir
Love you guru ji❤
❤❤❤❤ sir please 2nd chapter
Sir Casio se kase solve kar ne pe answer bilkul hi alg arha hai kase kare Casio Name hai fx 991ex
Niceee ❤
Yes Bhai
AKTU NEW CHANNEL th-cam.com/video/AWwHUUinFNA/w-d-xo.htmlsi=a5UeXN_KVBXSXsXm
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Sir
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Hlw bro where are you from
Ab samjh me aayega physics
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Thanku sir ❤
I watched this video 3 hours before my exam 😂😂😂
Sir kl exam hai first 2 somes ka value mera calculation alag aa raha h sir
Satimahadeva❤
Bakhi ke bhi one short dal dijiye physics ke
Love you 3000 sir❤
51:29
Imp questions cha video kra
sir last question mai mera 0.4848A aa rha h. maine m ki value pahle calculate kr li then usko rakha
Thnku so much sir you help alot 🙏
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sir sabhi units k video upload kijiye jaldi, please
CT 1 😂 ane wala hai
38:01 38:02
Best teacher
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Sir please ye btadijiye sare unit ka one shot ayega kya..then uss hisab se prepare kre
Haa bilkul all units aayega sir ne bola hai.
30:00
Yeh to bhot acha surprise Diya h ❤ sir
Sir chapter 2 and 3 ka bhi oneshot kra do
Sir I have a doubt. If lemda m is inversely proportional to the temperature then Why the Lemda max increased when temperature increases in the graph.
When temperature is increase the graph shifted upwards but lambda max is shifted leftwards that means it is reduced i think you are confused in both horizontal and vertical displacement
micrprocessor ka agar video ho to bata dijiye sir
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Sir aap all raunder hai 👏👏
Sir Part 2 Kidhar Hai??
Please upload one shot video of physics ASAP request
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