Simple Constrained Motion for JEE & NEET | Class 11 #OnionPhysics | Mechanics L-15

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Topics covered in Lecture 15 of Simple Constrained Motion for JEE & NEET in Onion Physics are listed below with timestamps:

Timestamps:
00:00 Simple Constrained Motion
01:10 Simple constrained motion of two connected bodies in Atwood's machine
03:23 Constrained motion when the direction is not along the string length
04:45 Speed calculation in a pulley block system by constrained motion
06:32 Acceleration calculation in a pulley block system by constrained motion
10:41 Constrained Motion analysis of a sliding rod between floor and wall
14:40 Speed calculation of end A of sliding rod between floor and wall by constrained motion

Simple constrained motion is one of the most fundamental concepts which easily gets turned in higher-order thinking questions with certain variations. The basics include pulley block systems, Atwood's machine, blocks connected with inextensible string, and analysis of their speed and velocity. In this video, Ashish sir has discussed multiple methods of solving the same question but it is important that students preparing for both JEE and NEET build skills on all the problem-solving methods discussed so that they are able to choose whichever approach is more suitable in multiple application problems.

Onion Physics is a FREE You Tube series for High Quality Online Physics Classes for JEE & NEET preparation. In this series, complete physics is taught through Illustrations based on different physical situations. JEE Main and NEET are competitive exams in which about 50 percent of questions are based on applications of physical situations and the rest are based on memory and fundamental analytical concepts. In JEE Advanced all questions asked are purely on applications of concepts in simple as well as complex experiments and physical situations. Onion Physics is focused on learning through examples and different physical situations which makes it the best online jee coaching available in Physics.

#rigidbodydynamics #rotationalmotion #jeemain #jeeadvanced #neet #jeepreparation #neetpreparation #onionphysics

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Sir u were also gonna take projectile in 3D??

Swara_jee_Aspirant

17:08, L = root(x^2+y^2) for all those who were confused with this...
Doesn't really matter in the end as L is constant so L^2 is also constant...

Through both methods, we would get the answer, but differentiating L would be a little lengthier.

parthkatoch

watching this lecture after solving cengage

tejassawant

The amount of promotion of his content and books is insane.

sagnikghosh

In don't care what others say but without a doubt he is the current "god of physics " . even teachers watch his lectures

jsk

Sir Paugi aap hi hain na 😂parde ke peechhe

technicalsuhailpoint

Sir please start onion series for class 12 please.. batch 2021-22

rudranshagrawal

Sir plz start onion physics for class 12 also along with cls 11

srija

Thanks YouTube for recommending this gems channel.
Every educator yelling mine is advance level video.
Ashish sir be like: ruko jara sabar karo🙄🙄🙄🙄😎😎

sauravkumar-wqco

Who is the fan of aashish sir daily short videos of tips and tricks..

maneeshsinghgautam

thank you for contribution to free education

rajendrachilapur

Sir 1 week ho gaya we are waiting for surprise

ashutoshkumarpathak

Sir, till when 11th syllabus gets completed??

bnhgbul

Sir please start onion lecture s for class 12

student

Can anyone please tell me why sir has taken L=x^2+y^2 at 16:54 and not

mugen

Thanks sir, aapka pdhaya bilkul smjh ni aaya!😢

tanishk_aa

sir why isnt the length of rod taken as sqrt(x^2 + y^2) ?

harshdarji

Thank you sir. Pls give us homeworks too in all levture as you gave in this one

ambarsinha

16:51 sir length of rod underoot x sq + y sq

garry

16:50 how can we write L=xsquare + y square it should be root under x square + y square please guide

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