Hello CHULBULON..!!! Anubhav Sir has a Special Message for you❤️ th-cam.com/users/shortsEptbie4HDwE?si=qyhzTgO5tl9tNT4m We are thrilled that you like our content and way of teaching 😊. Please fill out the form so that we can help you better. The counsellor will contact you soon. forms.gle/SG2tZik76RfhNAxk6 Regards, Team TOP
Like the same way the heart of John's brown mother got thrilled after she rceived the messgw of his son's coming . But after seeing him she was shocked she was unable tore ignise him . His face was blown away. He could hardly stand with the help of emtal brace attached to his spinal cord . John brown breaks his mthers magainataikne hi considers wat to be somting gloeuorus . John brown exeains as soon as he gone there he comoekteley tirgotbthe lruldoe of war. Even the emenmey looked like him . And as soon as the teh relsistikn struck a huge canakn sturckbwith his fac e. Ackridng ti him soldiers are lien apwn gightinbfir saiatufying the intrsts of givg they are like an puppet in the play
Abe ch*tiye woh sphere ko touch karne ko nhi bola tha unhone. Baki thread toh touch kr he skta the aur unhone wahi kara. Khud nashe mai rehte hai aur gyan dene aajate hai chu*** log
Sahi to h There is no external torque, as the thread itself is the axis. Hence I¹w¹ = I²w² As the size of ball decreases, it's Moment of Inertia(I) decreases, and Omega (w) increases
Angular momentum conservation(Iw=constant ,when Fext=0)!!!!!!after he pulled the lower string ,the distance of the adjoining parts from COM reduced i.e. MI decreased, thus angular velocity increased in order to conserve the momentum.
@@bhaskar1157 Nahi woh galat ha, aisi nahi karte kyuki linear velocity constant nahi ha. When Net Torque = 0, Angular momentum is conserved, so when we decrease the radius, the Moment of Inertia increases thus the angular velocity decreases.
Angular Momentum Conservation L = Moment of Inertia x Angular Velocity Mass gets concentrated near centre of mass, so moment of inertia decreases hence angular velocity increases
Apke jese sir agar har schools or cllg me ho to asani se ham india me education leval high kar sakte hai ...... apke jese teacher hajaro scientist bana sakte hai. 😇🤞
😊😊Sir mene jese socha tha same wahi tarika aapne apnaya or mene ye har video me notice Kiya h jese mene socha tha wese hi aapne bataya यानी same thinking 🤔🤔🙏🏻🙏🏻🙏🏻
"Conservation of angular momentum". It states that the total angular momentum of a rotating body is conserved in absence of torque(T=0). i.e., L=mvr=constant. Since the radius of the body decreased the linear velocity of the body increased.
Instead…the omega is increased because of angular momentum conservation as no external torque is applied to the system and IW=constant so as I(moment of inertia decreases….W (angular velocity) increases….
@@lakshmisinghal4816shi h lekin..... Torque external nhi hota puri body ka torque zero hoga because there is no perpendicular torque on system so torque of body is zero than angular momentum is conserved......
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Linear velocity is equal to angular velocity and radius multiplication.When radius decrease ,angular velocity increases when radius increases, angular velocity decrease but the linear velocity remains constant 😊 like if agree with me
Conservation of angular momentum bc the moment of inertia decreased bc the radius of the shape thats close to a hollowsphere decreased so to conserve angular momentum rotational speed should increase
When moment of inertia decreases by pulling the string downward then to conserve law of conservation of angular momentum the angular velocity increases.Formula:I1w1=I2w2
L = mvr For constant Angular Momentum (L) (means no torque is applied), tangential velocity (v) is inversely proportional to the radius (r). This is why you decreased the radius which led to an increase in tangential velocity.
Angular Momentum of this system will remain conserve as we haven't applied any external torque. Since Iw= constant; radius of sphere gets decrease when we pull the rope and hence I reduce and w will increase.
In the first Arrangement the masses are far away from it's axis of rotation, Compared to second arrangement Due to which the moment of inertia of the system is higher in first arrangement And less in second arrangement , As it is demonstrated in the video, he gave the angular velocity to the first arrangement and then shrink the volume of the first arrangement ( So that all the masses come closer and thus the distance from the rotation of axis decreases) so that the moment of inertia decreased therefore to conserve the angular momentum( Because there is no net external torque applied during the motion), omega increased
Radius is inversely proportion to omega(w) (that is angular velocity) When you pull the rope its radius is decreased that's why the angular velocity is increased
Well I am a 10th grader and I just passed my ninth, according to me,as the momentum is the product of velocity and mass , and we know that any two quantities that are in product so they have inverse relation p,as you decreased its size , it's velocity automatically got a rise
Conservation of angular momentum ... moment of inertia decreases when mass comes nearer to axis of rotation and for conservation of angular momentum angular velocity must be increase .i.e Iw=constant
here radius from axis of rotation decreases so moment of inertia (I) also decreases as I = 2/5mr^2 now to conserve angular momentum omega should increase itself so rotation in sphere speed up
Radius is inversely proportion to omega(w) (that is angular velocity) When you pull the rope its radius is decreased that's why the angular velocity is increased -----------IS IT COREECT----------
external torque about its axis is zero,hence angular momentum will be conserved,initial moment of inertia jyada but omega kam,nichle string ko kichne se moment of inertia kam hoga jisse omega badha ga bcoz angular momentum is const.
Angular velocitu is inversly propotional to the radius.... When radius is decrease by pulling the string below that toy the angular velocity increases becuse radius is decreased👍
Uska chota krne se uska moment of inertia bad jata h or inertia badne se angular velocity km hoti h angular momentum ko conserved rakhne ke liye kyuki us ball per koi ext. Torque nhi lag rh h
As we know that moment of inertia and angular speed depends upon the distribution of mass as we can see that, initially the mass was distributed far from the axis of rotation and when the distribution of mass comes near to the axis , the moment of inertia decreases and the angular speed increases this is the law of conservation of angular momentum❤ Thanks✨
According to Law of Angular momentum conservation IW =constant I=mr² Sir n mass decrease kiya to overall I decrease hoga than angular speed will be increase hogi qki angular momentum is conserved
angular momentum conservation, Iw = constant, on contraction, masses gathers closer to axis of rotation so I decreases so w increases meaning angular speed increases
Hello CHULBULON..!!!
Anubhav Sir has a Special Message for you❤️
th-cam.com/users/shortsEptbie4HDwE?si=qyhzTgO5tl9tNT4m
We are thrilled that you like our content and way of teaching 😊.
Please fill out the form so that we can help you better.
The counsellor will contact you soon.
forms.gle/SG2tZik76RfhNAxk6
Regards,
Team TOP
😮😮
Sir what is your offline coaching fees
Like the same way the heart of John's brown mother got thrilled after she rceived the messgw of his son's coming . But after seeing him she was shocked she was unable tore ignise him . His face was blown away. He could hardly stand with the help of emtal brace attached to his spinal cord . John brown breaks his mthers magainataikne hi considers wat to be somting gloeuorus . John brown exeains as soon as he gone there he comoekteley tirgotbthe lruldoe of war. Even the emenmey looked like him . And as soon as the teh relsistikn struck a huge canakn sturckbwith his fac e. Ackridng ti him soldiers are lien apwn gightinbfir saiatufying the intrsts of givg they are like an puppet in the play
Angular momentum
Sir chulbulon ye hamara Nick name he kya😂
The main point is teacher touch karke hi speed increase kiye😂
Exactly mai bhi yhi soch rha tha😂
Wo inertia ka concept samjha rahe hai.(yeh class 11 rotational mechanics ka hissa hai aur bahut aasan hota hai.)
But sphere nahi 😂😂😂😂😂
@@narendraswami1633no he have not touch the sphere he had touch thread
Abe ch*tiye woh sphere ko touch karne ko nhi bola tha unhone. Baki thread toh touch kr he skta the aur unhone wahi kara. Khud nashe mai rehte hai aur gyan dene aajate hai chu*** log
Student be like - sir mujhe pata tha par mai kar deta tho apki video kaise banti😂😂
Yes😂
Haan bhai😂😂
😂😂😂😂
Scripted tha 😂
😂😂😂😂
Law of conservation of angular momentum
Aba sala
Kuch b😂
torque net should be zero tb lagega conservation of angular momentum....concept sahi kro bhai apna
Sahi to h
There is no external torque, as the thread itself is the axis.
Hence I¹w¹ = I²w²
As the size of ball decreases, it's Moment of Inertia(I) decreases, and Omega (w) increases
@@titanicgamer6804Force due to weight and tension is passing through the axis of rotation hence torque = Fr
=F(0)
=0
The speed is constant but the angular velocity is increased as radius decreased to support the relation ( speed = Radius x angular vel)
Angular momentum conservation(Iw=constant ,when Fext=0)!!!!!!after he pulled the lower string ,the distance of the adjoining parts from COM reduced i.e. MI decreased, thus angular velocity increased in order to conserve the momentum.
bro w = v/r lgale na direct
Yes correct...to conserve angular momentum... angular velocity increased due to decrease in MOI by reducing distance..
Yes correct, to conserve angular momentum... angular velocity increased in order to compensate for the decrease in MOI.
@@bhaskar1157so what is constant and varying in that?
All the 3 components are varying and we know only about r.
So can't tell anything about v and w
@@bhaskar1157 Nahi woh galat ha, aisi nahi karte kyuki linear velocity constant nahi ha.
When Net Torque = 0, Angular momentum is conserved, so when we decrease the radius, the Moment of Inertia increases thus the angular velocity decreases.
Sir please physics ka concept bhi bata Diya Karo 🙏
I just want students to comment and try. Rest I will definitely upload the solutions in due course of time
@@Theory_of_Physics thankyou sir
Agular momentum is Vperpendicular/R
Value of are decreases so momentum increases
In this the MOI is decreased because of which the angular velocity is increased
@@bright_Vloger πDN/60
This teacher make the physics more interesting 🤔🤔😁😁
the student is having same mindset that is of me😂😂
Same here 😂😂😂😂😂😂😂😂
Bro entered 100% of brain💀
One more legend is coming out🔥🔥
Thanks for the kind words
Angular Momentum Conservation
L = Moment of Inertia x Angular Velocity
Mass gets concentrated near centre of mass, so moment of inertia decreases hence angular velocity increases
Angular momentum increases with decrease in radius.😎
The teacher needs whole india👍😊
Why does the students laugh looks like recorded?
Conservatuon of angular momentum jaha par (IW= constant he )to jab string khichnege tab moment of inertia dec hoga to angular speed inc hoga
Apke jese sir agar har schools or cllg me ho to asani se ham india me education leval high kar sakte hai ...... apke jese teacher hajaro scientist bana sakte hai. 😇🤞
I = mr^2
So when radius reduces, a moment of inertia also reduce.
I am a commerce student but day by day my interest is increasing because of your concept ❤ what a brilliant sir!!
Even I am from commerce
Angular momentum is Inversely proportion radius
I want a teacher like him...!! ❤
😊😊Sir mene jese socha tha same wahi tarika aapne apnaya or mene ye har video me notice Kiya h jese mene socha tha wese hi aapne bataya यानी same thinking 🤔🤔🙏🏻🙏🏻🙏🏻
In every experiment
Student - general category
Anubhav sir - SC/ST category 💀💀💀💀💀
😂 op bhai
Conservation of angular momentum
this man making physics so amazing
"Conservation of angular momentum". It states that the total angular momentum of a rotating body is conserved in absence of torque(T=0). i.e., L=mvr=constant. Since the radius of the body decreased the linear velocity of the body increased.
V=rW ,so omega is inversely proportional to r, hence radius is decreased speed will increase.❤❤
Nope bro….velocity isn’t constant here so we cannot say that omega is inversely proportional to r…
Instead…the omega is increased because of angular momentum conservation as no external torque is applied to the system and IW=constant so as I(moment of inertia decreases….W (angular velocity) increases….
Aap Allen ma padhta ho kya??
@@lakshmisinghal4816shi h lekin..... Torque external nhi hota puri body ka torque zero hoga because there is no perpendicular torque on system so torque of body is zero than angular momentum is conserved......
@@aniketrana297 yess
Sir aap bahut hi aachha science padhate hai❤❤❤❤❤
Sir apne sphere ko touch kar liya this is main point
Conservation of moment of inertia
wtf is conservation of moment of inertia?? bruhh you mean angular momentum?
Sir aap jo padhate ho uske full topic k vdo bhi upload kariye plsss ☺☺
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Kindly be explaining the concept as some students end up not understanding the concept you are teaching in videos Sir
Linear velocity is equal to angular velocity and radius multiplication.When radius decrease ,angular velocity increases when radius increases, angular velocity decrease but the linear velocity remains constant 😊 like if agree with me
Sir aapki har videos and short bohot help krti hai physics ko smjhne me sir you are great teacher ❤
Angular velocity is inversely proportional to radius
Conservation of angular momentum bc the moment of inertia decreased bc the radius of the shape thats close to a hollowsphere decreased so to conserve angular momentum rotational speed should increase
When moment of inertia decreases by pulling the string downward then to conserve law of conservation of angular momentum the angular velocity increases.Formula:I1w1=I2w2
Ang. Momentum is Iw .
If I decreases w increases
L = mvr
For constant Angular Momentum (L) (means no torque is applied), tangential velocity (v) is inversely proportional to the radius (r).
This is why you decreased the radius which led to an increase in tangential velocity.
L= IW = constant, as we pull the thread down I( Moment of inertia) decrease so w (angular velocity ) increased.
Angular Momentum of this system will remain conserve as we haven't applied any external torque. Since Iw= constant; radius of sphere gets decrease when we pull the rope and hence I reduce and w will increase.
Those students don't like physics 😢
But after u these students fall in love with physics 😊😊😊
Charan sparash guru 😊😊
Omega to constant hi rahega sir to jab radius kam hogi to balance krne ke liye velocity ko badhna padega
Demonstration by a Hoberman sphere. What a simple beauty !!! ❤
In Radius decrease the angular velocity will increase for conversion of angular momentum 😊
In the first Arrangement the masses are far away from it's axis of rotation, Compared to second arrangement Due to which the moment of inertia of the system is higher in first arrangement And less in second arrangement , As it is demonstrated in the video, he gave the angular velocity to the first arrangement and then shrink the volume of the first arrangement ( So that all the masses come closer and thus the distance from the rotation of axis decreases) so that the moment of inertia decreased therefore to conserve the angular momentum( Because there is no net external torque applied during the motion), omega increased
Conservation of angular momentum. The moment of inertia decreases so the angular speed will increase.
Sigma student for not spoiling the video
When moment of inertia decreases the angular velocity increases
Radius is inversely proportion to omega(w) (that is angular velocity)
When you pull the rope its radius is decreased that's why the angular velocity is increased
Because omega is inversely proportional to moment of inertia . Aur sir aapne rope khich kr moment of inertia kam kr diya toh usse omega badh gya
Well I am a 10th grader and I just passed my ninth, according to me,as the momentum is the product of velocity and mass , and we know that any two quantities that are in product so they have inverse relation p,as you decreased its size , it's velocity automatically got a rise
Mass ≠ size my friend. This is relation of axial vectors. You'll learn about it in class 11.
Conservation of angular momentum ...
moment of inertia decreases when mass comes nearer to axis of rotation and for conservation of angular momentum angular velocity must be increase .i.e Iw=constant
Ye to hum bachpan me karte tha
One of the best teacher I have every seen you the way you are delivering your in students minds it’s awesome hats off . Faheem Pakistan
Best physical teacher ❤
Student ka tattoo bahut achchhha hai
aur students bhi 😅😊
here radius from axis of rotation decreases so
moment of inertia (I) also decreases as I = 2/5mr^2 now to conserve angular momentum omega should increase itself so rotation in sphere speed up
Mass distribution distance about rotational axis decreases . therefore moment of inertia decreases .
Einstein of 2023💀❤️
Smart way to Teach
Low of conservation of angular momentum, i1w1 = i2w2 inertia decreases so womega increses
Amazing video,i have my exam tomorrow and this explanation really helped me,hopefully exam badia jaaega
Law of conservation of momentum ❤️
thats why neutrons stars are small , but denser than sun , thus having high angular velocity
Moment of inertia inversely proportional to angular velocity
Radius is inversely proportion to omega(w) (that is angular velocity)
When you pull the rope its radius is decreased that's why the angular velocity is increased
-----------IS IT COREECT----------
Conservation of angular momentum
R1>R2 then V2>V1
Conservation of angular momentum. Moment of inertia decreases so angular velocity increases.
Moment of inertia decreases when ball shrinks
Since MOI of hollow sphere is directly proportional to radius ² so, radius decreases, MOI decreses
Moment of inertia is inversely proportional to angular speed
Angular momentum 😊
I=MR^2.....since r decrease therefore I decrease ....I decrase omega(w) increases
Angular speed is inversely proportional to radius.
He reduces the radius by pulling the string as in the result the speed increases.
Very great good Nice Knowledge and Technology
Par sphere thodi rha star ban gaya 😂😂
The smaller an object gets, is rotational velocity increases. This is why most neutron starts and black homes are spinning faster than stars
Moment of inertia decrease as most of mass was near the axis of rotation
Angular speed = velocity/radius
Less the radius of sphere (object) more the angular speed
Because of moment of inertia decreases then angular velocity increase
Thank u sar aap ham itna achcha chij khate Hain
external torque about its axis is zero,hence angular momentum will be conserved,initial moment of inertia jyada but omega kam,nichle string ko kichne se moment of inertia kam hoga jisse omega badha ga bcoz angular momentum is const.
The guy is handsom❤❤❤
Net torqie=0, therefore ang. Momentum is conserved, L=MRω², Mass is constant, on decreasing radius ang. velocity increases
Angular velocitu is inversly propotional to the radius.... When radius is decrease by pulling the string below that toy the angular velocity increases becuse radius is decreased👍
Uska chota krne se uska moment of inertia bad jata h or inertia badne se angular velocity km hoti h angular momentum ko conserved rakhne ke liye kyuki us ball per koi ext. Torque nhi lag rh h
Since radius is decreased i,e moi increase and ultimately angular acceleration increased and Omega will increase
w=V/R radius decreased so w increased
moment of enertia kam hogya toh angular speed badh gaya
to conserve angular momentum
As we know that moment of inertia and angular speed depends upon the distribution of mass as we can see that, initially the mass was distributed far from the axis of rotation and when the distribution of mass comes near to the axis , the moment of inertia decreases and the angular speed increases this is the law of conservation of angular momentum❤
Thanks✨
moment of inertia decreases but angular mom is const
Moment of inertia decreases and therefore angular velocity increases in order to conserve the angular momentum.
Question : in subject
Answer : Out of subject
According to Law of Angular momentum conservation
IW =constant
I=mr²
Sir n mass decrease kiya to overall I decrease hoga than angular speed will be increase hogi qki angular momentum is conserved
Ans: moment of inertia decreased therefore angular velocity(omega) increased hence speed increased
Concept: radius is inversely proportional to the angular velocity
His interactions with students during experiments come across as quite brusque and impolite!!!!!!
angular momentum conservation, Iw = constant, on contraction, masses gathers closer to axis of rotation so I decreases so w increases meaning angular speed increases
Kash hmare tym pe aise teacher hote
Moment of inertia decrease when it bends and angular velocity increasea
Radius decreases moment of inertia also decreases aur angular velocity increases
Conservation of angular momentum because moment of inertia decrease so angular velocity increase