FLUID MECHANICS IN ONE SHOT - All Concepts, Tricks & PYQs || NEET Physics Crash Course

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✒️ We will cover complete NEET Syllabus in 60 days.

✒️ Daily classes on our YouTube Channel "Competition Wallah".






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PW-NEETWallah

TIMESTAMPS-

00:5:17 introduction
00:9:55 pressure
00:23:46 density of fluids
00:38:20 variation of fluid pressure with depth
1:24:59 variation of fluid pressure along same horizontal level
1:29:30 U-tube problems
1:54:40 break 1
2:07:48 variation of pressure in vertically accelerating fluid
2:12:45 variation of pressure in horizontally accelerating fluid
2:24:33 shape of liquid surface due to horizontal acceleration
2:34:11 Barometer
2:48:44 Pascal's law
3:08:54 upthrust
3:12:07 archimedes principle
3:27:47 apparent weight of body
3:42:02 break 2
3:53:48 condition for floatation &sinking
3:56:55 law of floatation
4:40:48 fluid dynamics
4:58:55 Reynold's number
5:03:01 equation of continuity
5:22:39 Bernoullis's principle
5:46:17 break 3
5:57:58 tap problems
6:14:20 aeroplane problems
6:32:43 venturimeter
6:51:44 Speed of efflux:Torricelli's law
7:28:06 velocity of efflux in closed container
7:33:26 break 4
7:44:47 Viscosity
8:02:55 Stoke's law
8:05:45 terminal velocity
8:39:48 All the best

Hope this helps y'all!
Also, thank you sir for the efforts you put in for us!

deepali

00:00:00 Introduction
00:09:55 Pressure
00:23:46 Density of Fluids
00:38:20 Variation of Fluid Pressure with Depth
1:24:59 Variation of Fluid Pressure Along Same Horizontal Level
1:29:30 U-Tube Problems
1:54:40 BREAK 1
2:07:48 Variation of Pressure in Vertically Accelerating Fluid
2:12:45 Variation of Pressure in Horizontally Accelerating Fluid
2:24:33 Shape of Liquid Surface Due to Horizontal Acceleration
2:34:11 Barometer
2:48:44 Pascal's Law
3:08:54 Upthrust
3:12:07 Archimedes Principle
3:27:47 Apparent Weight of Body
3:42:02 BREAK 2
3:53:48 Condition for Floatation & Sinking
3:56:55 Law of Floatation
4:40:48 Fluid Dynamics
4:58:55 Reynold's Number
5:03:01 Equation of Continuity
5:22:39 Bernoullis's Principle
5:46:17 BREAK 3
5:57:58 Tap Problems
6:14:20 Aeroplane Problems
6:32:43 Venturimeter
6:51:44 Speed of Efflux : Torricelli's Law
7:58:06 Velocity of Efflux in Closed Container
7:33:26 BREAK 4
7:44:47 Viscosity
8:02:55 Stoke's Law
8:05:45 Terminal Velocity
8:39:48 All the best

akhilreddy

Intriduction-0:0
Pressure-9:55
Density of fluid-23:46
Variation of fluid pressure with depth-38:20
Variation of fluid pressure along same horizontal-1:24:59
U tube problems :1:29:30
Break1 -1:54:40
Variation of pressure in vertically accelerating fluid - 2:07:48
Variation of pressure in horizintally accelerating fluids - 2:12:45
Shape of liquid surface due to horizontal acceleration-2:24:33
Barometer-2:24:33
Pascals law-2:48:44
Upthrust-3:08:54
Archimedes principle-3:12:07
Apparent wt of body-3:27:47
Break 2 -3:42:02
Condition for floatation and sinking-3:53:48
Law of floatation-3:56:55
Fluid dynamics-4:40:48
Reynolds no-4:58:55
Equation of continuity-5:03:01
Bernoullis theorem-5:22:39
Break 3-5:46:17
Tap problems-5:57:58
Aeroplane problems-6:14:20
Venturimeter-6:32:43
Speed of efflux-torrcellis law-6:51:44
Velocity of efflux in closed container-7:58:06
Stokes law-8:02:55
Terminal velocity-8:05:45

ALL THE BEST👍💜🙏

sakshi

TIMESTAMPS ⌚

00:00:00 Introduction
00:09:55 Pressure
00:23:46 Density of Fluids
00:38:20 Variation of Fluid Pressure with Depth
1:24:59 Variation of Fluid Pressure Along Same Horizontal Level
1:29:30 U-Tube Problems
1:54:40 BREAK 1
2:07:48 Variation of Pressure in Vertically Accelerating Fluid
2:12:45 Variation of Pressure in Horizontally Accelerating Fluid
2:24:33 Shape of Liquid Surface Due to Horizontal Acceleration
2:34:11 Barometer
2:48:44 Pascal's Law
3:08:54 Upthrust
3:12:07 Archimedes Principle
3:27:47 Apparent Weight of Body
3:42:02 BREAK 2
3:53:48 Condition for Floatation & Sinking
3:56:55 Law of Floatation
4:40:48 Fluid Dynamics
4:58:55 Reynold's Number
5:03:01 Equation of Continuity
5:22:39 Bernoullis's Principle
5:46:17 BREAK 3
5:57:58 Tap Problems
6:14:20 Aeroplane Problems
6:32:43 Venturimeter
6:51:44 Speed of Efflux : Torricelli's Law
7:58:06 Velocity of Efflux in Closed Container
7:33:26 BREAK 4
7:44:47 Viscosity
8:02:55 Stoke's Law
8:05:45 Terminal Velocity
8:39:48 All the best 🥰🥰🥰🥰🥰🥰🥰

visheshverma

5:17 - introduction
9:54 - pressure
18:24 - ques
21:28 - pressure in fluids
23:43 - density fluid
27:10 - relative density
33:09 - density of mixture
36:40 - ques
38:22 - variation of fluid pressure width depth
41:08 - ques
43:29 - graph between pressure and height
45:48 - gauge pressure and absolute pressure
48:40 - ques
1:24:57 - variation of fluid pressure along the same horizontal level
1:29:31 - U - tube problem
1:54:42 - Break 1st
2:07:46 - variation of pressure in vertically and horizontally accelerating fluid
2:18:18 - ques
2:24:32 - shape of liquid surface due to horizontal acceleration
2:32:32 - ques
2:34:11 - Barometer
2:45:54 - manometer
2:48:43 - Pascal's law
3:08:54 - upthrust\buoyancy
3:12:08 - Archimedes principle
3:15:40 - ques
3:27:47 - Apparent weight of body
4:04:09 - ques
4:41:29 fluid dynamics start

AyushSingh-vcpc

Timeline:00:00:00 Introduction
00:09:55 Pressure

00:23:46 Density of Fluids
00:38:20 Variation of Fluid Pressure with Depth
1:24:59 Variation of Fluid Pressure Along Same Horizontal Level
1:29:30 U-Tube Problems
1:54:40 BREAK 1
2:07:48 Variation of Pressure in Vertically Accelerating Fluid
2:12:45 Variation of Pressure in Horizontally Accelerating Fluid
2:24:33 Shape of Liquid Surface Due to Horizontal Acceleration
2:34:11 Barometer
2:48:44 Pascal's Law
3:08:54 Upthrust
3:12:07 Archimedes Principle
3:27:47 Apparent Weight of Body
3:42:02 BREAK 2
3:53:48 Condition for Floatation & Sinking
3:56:55 Law of Floatation
4:40:48 Fluid Dynamics
4:58:55 Reynold's Number
5:03:01 Equation of Continuity
5:22:39 Bernoullis's Principle
5:46:17 BREAK 3
5:57:58 Tap Problems
6:14:20 Aeroplane Problems
6:32:43 Venturimeter
6:51:44 Speed of Efflux : Torricelli's Law
7:58:06 Velocity of Efflux in Closed Container
7:33:26 BREAK 4
7:44:47 Viscosity
8:02:55 Stoke's Law
8:05:45 Terminal Velocity
8:39:48 All the best

himanshumittal

Single shot web series called fluid mechanics 😂😂

mrcharm

CONGRATS TO ALL THOSE WHO COMPLETED THE LECTURE IN ONE SHOT . THANK YOU SIR FOR SUCH A DETAILED LECTURE.

smarakdash

Anybody is here to complete his backlog by alakh sir in 2023 ??

PaheliStyle

@physicswallah6010
1 year ago (edited)
5:17 - introduction
9:54 - pressure
18:24 - ques
21:28 - pressure in fluids
23:43 - density fluid
27:10 - relative density
33:09 - density of mixture
36:40 - ques
38:22 - variation of fluid pressure width depth
41:08 - ques
43:29 - graph between pressure and height
45:48 - gauge pressure and absolute pressure
48:40 - ques
1:24:57 - variation of fluid pressure along the same horizontal level
1:29:31 - U - tube problem
1:54:42 - Break 1st
2:07:46 - variation of pressure in vertically and horizontally accelerating fluid
2:18:18 - ques
2:24:32 - shape of liquid surface due to horizontal acceleration
2:32:32 - ques
2:34:11 - Barometer
2:45:54 - manometer
2:48:43 - Pascal's law
3:08:54 - upthrust\buoyancy
3:12:08 - Archimedes principle
3:15:40 - ques
3:27:47 - Apparent weight of body
4:04:09 - ques
4:41:29 fluid dynamics start

pranjlisrivastava

A: Ability to explain
L: Love for students
A: Art of teaching
K: Kind
H: Hearted

P: Pure from core of heart
A: Acustomed to teaching
N: Nadani se bhara hua
D: Dilwale
E: Every time helpful
Y: Youth ko help karne wallah

IITmotivation_OP

2:54 Rohit Sharma and Alakh pandey both are hit man in different fields

qgfrtdfcgh

salute to alakh sir for this hard dedication and entusiasm for teaching "for free"
continues 8 hrs
itna to sarkari log tankhva lekar bhi kam nahi krte lekin alakh sir "hats off to you"
thanks sir for providing this this level of content for free
jai hind jai pw
we owe to PW....
we will try to repay

ayushgandhi

Anybody here for NEET 2025??

All the best all of you 🎉

AllinOne-soeq

hr straight teaching doing every sum putting notes speaking and explaining.. Providing quality from beginning to End, m speechless

eraina_

What a high level of energy throughout the whole lecture.Hats off to sir.

gursharandhindsa

Why we use mercury in barometer?

1) Mercury is more dense.Its relative density is 13.534 times more than water. So, to measure the atmospheric pressure which is 760 mm of Mercury you need a barometer with Mercury of length slightly more than 0.76 meter say one meter to cover the special cases of some higher pressure.


2) whether the Mercury being a metal therefore it has shining quality it shows the reading clear.


3) also mercury having comparatively lower specific heat and good conductor of heat, could come to the same temperature of the atmosphere more quickly.

heetchaudhary

Samne wali party : Physics is all about killer visualization
Alakh sir: Physics is all about imagination ❤️. Visualization kills our imagination
True words...

prakashgowda

I was thinking of skipping this chapter for NEET but after this video, I'm not afraid of this chapter

kaif