YAA ... IT WILL WORK BUT IN NUMERATOR WE SHOULD NOT ADD ITS MASS WHICH IS ON HORIZONTAL SURFACE... PLZ DON'T MIS UNDERSTAND ... JUST TO GIVE BETTER CLARITY ALL VIEWERS ... I POSTED THIS ... NOT TO POINT OUT ... IF ANY STUDENT IS APPLYING THIS TRICK IN EXAM WITHOUT THIS CLARITY ... THEY MAY GET NEGATIVE MARKS...
Yr khna chah rhe ki jo horizontal surface par rkha h uska motion m contribution nhi hota tp uske mass ko ham uper(numerator) me nhi likhenge but denominator m to likhenge@@iitian57
This video is amazing. I appreciate your teaching style; it's easy to understand. and btw ans of last question is T=48N, a wrt 4kg body was 2 ms^-2, and a wrt 6 kg body was 3 ms^-2
Sir but this formula cannot be applied for a mass lying on a table connected to a pulley hanging which has force applied on it where the other end of pulley connected to fixed wall
max to max mains m usse jyada nhi aise tricks sirf mains ke liye hote h bhai advanced wale boht upar h ye sab cheezo se han wo alag bat h ki difficult qn m par tension nikalne wala part ho toh voh asani se nikal jayega par solely tension based qn ane ki probability less than 1 percent h
Students of kota -🤯
Techers of kota -💥
My situation -😓
Want more this type of lecture for every topic-😊
Remember Concept is Power ❤
Dear sir?
Dear sir ❤
Dear sir 😢
Remember marks is our atmost priority😂
@@premjavia6533 bhot sahi bhai 😂❤
T-48;A1-2m/s;A2-2m/s answer of the question
Pulleys are fixed or movable, i think short cuts are useless without concept
Thankyou sir. Waiting for lots of tricks for solving physics...
T=48N, A1=2m/s², A2=2m/s².
Pls tell I am not able to do it
@@INDopYT739 use the formula given by sir, take c1 as 1 and c2 also as 1...
c1=1, c2=1, m1=4, m2=6. hope this helps
But how can both c1 and c2 be 1?@@laasyah5123
@@laasyah5123 no one of the c's would be 2 since it is the main string
@@hitanshfuria7797 hona to aise hi chahiye bhai
T=48N, a1=2m/s² , a2=2m/s²
Same Answer hai . Isliye type nahi kiya
@@psgaming130 how? pls explain
pls explain how?
Bhai, meine vo Atwood condition ke method se answer nikala and tension 48 and acceleration 2 aa rahi hain.
Same
These tricks are super effective and save a lot of time in our exams. 😊🎉
bhai c kya h yaha
coefficient of tension @@debojitghosh2197
@@debojitghosh2197 COFFICIENT OF THE TENSION IN THE STRING OF THE PULLEY
T=48N,for6 kg weight acceleration will 2 and fir 4 kg weight accelerate will 2
what is c1 c2 c3 c4 c5 ............... in the formula of tension
Coefficient of tension
If the pulley-block system moves only in the horizontal plane then g=0, then how will the tension be known?
put acceln of the pulley instead of g?
21 toppo ki salami sir shm asan kar diya dimag ke fuse nikal rahe the
T:48N a1=a2=2m/s2
Thanks sir very useful 👍🏻 👌 😀 🙏 😊 🙂 ❤
Tension is 48 and acceleration is 2
You are the best sir 🎉
Sir ek aise hi short video bna dijiye ki T ka value kaise lena hai
ur just too dumb to understand
T=48N a1=2 m/s2 a2=2m/s2
Sir it is applicable everywhere right just we need to ensure effective gravity.. ????
Yes champ
Sabse best tarika hota hai charge distribution ka beta...jaha do rasta dekhega matlab charge distribute hua hoga aur dono ko parallel consider karenge
Nahi
Kaise ho kbadiyon 😅 / very humble nature
😂😂😂😂😂
Ha ha ha........very humble person I have ever met😂😂😂
T=2m1m2g/m1+m2
For 2 bodies.
its amazing sir....
Keep watching
if they ask more than one tension of a string we can't use this formula it is useful for only acceleration not for a tension
What a trick sir😇
T= 48m/s² ....a1 =2m/s²=a2
how dude?, pls explain it
Dude, a=F(total)/M(total)..... where Force is only the external forces
Sir can you please provide the generic proof of the given formula. Thanks
Great sir 💯💯💯
10:36
2g/7 and 4g/7 are the acceleration
Thanks for your good work sir
YAA ... IT WILL WORK BUT IN NUMERATOR WE SHOULD NOT ADD ITS MASS WHICH IS ON HORIZONTAL SURFACE... PLZ DON'T MIS UNDERSTAND ... JUST TO GIVE BETTER CLARITY ALL VIEWERS ... I POSTED THIS ... NOT TO POINT OUT ... IF ANY STUDENT IS APPLYING THIS TRICK IN EXAM WITHOUT THIS CLARITY ... THEY MAY GET NEGATIVE MARKS...
😢
Should we have to multiply or just leave it
Can u explain plz....
Can u please elaborate more, I didn't understand?
Yr khna chah rhe ki jo horizontal surface par rkha h uska motion m contribution nhi hota tp uske mass ko ham uper(numerator) me nhi likhenge but denominator m to likhenge@@iitian57
THANK YOU SIR !!!
A1 = 2m/s2 A2= 2m/s2 and T = 48 N
Please reply will this equation work if the PULLEY or the ROPE has mass?
what is C?
T =48,a=2,a=2🎉
10:23 T = 48N and both a =2ms2
how? pls explain.
This video is amazing. I appreciate your teaching style; it's easy to understand.
and btw ans of last question is T=48N, a wrt 4kg body was 2 ms^-2, and a wrt 6 kg body was 3 ms^-2
wrt 6kg body was 2 ms^-2
It's really amazing mathod and really very affective for us ☺☺
Mere school mein isse bhi hard karva ya gaya hai 😂 IIT JEE NEET teenon ka question hota hai
Munil sir jindabaad
🎉🎉
What is c
Co efficient of T
Sir is this applicable to all the movable pulley system ?
Thank you !
What coefficient is C in the formula 1:54
its coeffient of tension like if a rope is attched with a mass m then tension is t therefore coeffient of t is 1 hence c is also 1
@@skumar3511 this means that we are replacing the value of T by integer 1?
Like if tension is 2T the value of C should be 2.right?
@@ninjeshwar6252 yes
@@ninjeshwar6252YES
Sir sir please jee mains ke kuch scoring chapters pe vixeo bna de
May be correct answer is T= 18g/7
My also same
masses are given in kg , and where is second mass of second pully
No nitin sachan sir trick is copied during this video...... 💀
Bache this is not copied.. this is being taught from years by many teachers.. even I have been taught during my preparation days
Amazing ❤
It is very nice trick
Sir ap se upar koi nhi manzil se badhkar 😅
What is c here
Very useful trick.
Glad you think so!
Thx sir this was useful
Two blocks ka trick digiye n sir
1 example acc was wrong this trick is not for all pulleys
Sir your mathed is a oppppppp❤
Sir what is the answer of the hw question?
Thankyou sir 🙏
sir how kg are being converted into g in formula and how grams are converted into newton , kindly explain
For Kg > g : Multiply by 1000
For g > Kg : Divide by 1000
good presentation😊
Thank you soooooooooooo much sir ji
The trick is half correct and it cannot be used in most of the problems😢😢
Thanku so much sir physics ka numerical itna mushkil lgta tha but apna to bhot easy tarika sa smjya 😊👍🙏you are the best teacher👩🏫😊🙏
is this applicable in all pulley cases??
Yes sir
For legends it is only 5 secs
what if there's no theta given?
This trick doesn't work all the time. Do not use this all the time. You may get negatives in exam.
Bht dhanyawad sirji❤
Bro what is C
Sir but this formula cannot be applied for a mass lying on a table connected to a pulley hanging which has force applied on it where the other end of pulley connected to fixed wall
Excellent sir
5.71ms-2 is answer
Pulley kab rukhi hoti hai or kab movable
Sir ye hmesha kaam krega mtlb tough se tough jee questions ke liye
max to max mains m usse jyada nhi aise tricks sirf mains ke liye hote h bhai advanced wale boht upar h ye sab cheezo se han wo alag bat h ki difficult qn m par tension nikalne wala part ho toh voh asani se nikal jayega par solely tension based qn ane ki probability less than 1 percent h
WHEN ONE BLOCK IS ON HORIZONTAL SURFACE ... IS THIS WORKING SIR
No take g as zero
Ise tough questions tho karte hai neet UG m
Ans kiya he
Supep sir 🎉🎉🎉
Very nice sir 💯💯💯💯💯💯💯💯🤳
0:18
Thank you 🙏🙏🙏 sir
Most welcome
🎉
Lets try
English can be better sir ?
boom boom🎉🎉❤❤❤
Thx sir I will never forget u ❤
2g/5
We want vk sir organic reactions videos
Badiya lagi sir
Sir what if friction is also presentt
Nice
Supper❤
Can any body help me to take the questiin solving i had difficulti in it
Sir khatt se ans aaya
Pov:- u have watched all shortcut videos and goes to jee exam
Paper solved in 2 hours 🗿
😂
Pseudo force aate hi sabh khatam!
48
We have to his in class 9th 😂😂
Class9 nooo class11
If u don't know English then don't use it 😭
Sir ye equation me C kya hai😅
Co-efficient of tension acting of the mass