time stamps 3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:29:00 poisson's ratio thank you
3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:29:00 poisson's ratio thank you
Time stamps ❤ 3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:29:00 poisson's ratio 🦍
3:14 -lecture start 3:26 -deforming force😊 7:04 -elasticity & elastic limit 9:56 -perfectly elastic body 14:57 -perfectly plastic body 15:43 -stress Sorry guys i just watched this video ❤😊
3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:23:28 poisson's ratio
16:53 sir stress is The restoring force per unit area.. And stress and pressure are not equal in pressure the force applied is externally but in stress the for is applied by the body internally..
53:39 if k of pen increases so we have to apply more stress to hve chanement in shape vice versa if k of bike stand decreases so we have to apply less stress to have changement in straian vice versa
Time stamps ❤ 3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:29:00 poisson's ratio thanks me by like please😇😔😔
Time stamps ❤ 3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:23:28 poisson's ratio
time stamps 3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:29:00 poisson's ratio thank you
00:02 Mechanical Properties of Solids One Shot 02:12 This chapter discusses the mechanical properties of elastic bodies. 06:42 Elasticity is the property of an object to regain its original shape and size. 08:51 Understanding the concept of elastic limit 13:12 Rubber chair is better than steel chair in resisting deformation 15:19 Stress is the force per unit area applied to solid bodies. 21:53 Different types of stress in solids 25:35 Hydrostatic stress changes the volume of the material. 27:20 Mechanical Properties of Solids 32:52 Understanding the impact of dimension change on mechanical properties 36:55 Volume metric strain and tangential shear strain 39:03 Shear strain is the deflection produced per unit length. 43:34 Understanding Hook's Law and its modifications 45:50 Hooke's Law explains the proportional relationship between stress and strain. 56:22 Young's Modulus is a type of modulus of elasticity. 58:29 Young's modulus and bulk modulus are explained with their respective formulas and units. 1:02:44 Understanding stress and strain graphs 1:04:55 Stress and strain are directly proportional on a straight line graph. 1:09:15 Understanding the transition from elastic to plastic behavior in materials. 1:11:19 Plastic behavior indicates the object will not restore its shape once the deforming force is removed. 1:21:27 Importance of understanding the weight limit and safety measures of a lift 1:23:02 Importance of understanding elasticity in machinery and construction 1:27:16 The formula for potential energy in terms of stress and strain 1:29:13 Poisson's ratio explains the relationship between lateral strain and longitudinal strain.
3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:29:00 poisson's ratio Thank me later 😢
timestamp : 53:20 bike's stand 's spring's constant k will be more since we have to give more stress to change it's bit dimensions. thanks for the your ultimate efforts of all one shots trust me guys all the one shot he uploaded were amazing
time stamps 3:24 deforming force 5:06 restoring force 7:13 elasticity 7:55 elastic limit 10:05 perfectly elastic bodies 14:51 perfectly plastic bodies 15:36 stress 20:03 SI unit of stress 21:25 types of stress 29:24 strain 35:00 longitudinal strain 36:27 volumetric strain 41:32 hooke's law 54:48 types of modulus of elasticity 56:35 young modulus 59:40 bulk modulus 1:01:26 shear modulus 1:03:49 stress-strain graph 1:12:58 ductile and brittle material 1:15:32 elastomers 1:16:42 some other elastic effects 1:18:48 compressibility 1:20:21 applications of elasticity 1:23:23 elastic potential energy of stretched wire 1:29:00 poison's ratio
Derivation Let us take a wire of length L& Area of cross section A if we apply force F uniformly then it's length changes to l+∆l So, W=1/2kx^2 W=1/2k(∆l) ^2 (F=-kx) W=1/2(k∆l) ∆l W=1/2F∆l Multiply and dividing RHS by Volume W=1/2F∆l vol/vol W=1/2(f∆l/A*l) vol W=1/2(F/A) *(∆l/l) *vol W=1/2*stress*strain*vol Hence, U=1/2*stress*strain*vol
Hello sir, currently I persuing diploma in computer science and engineering and the one shot is very helpful to me because I have a lot of syllabus but I have less time to study .
00:02 Mechanical Properties of Solids One Shot 02:12 This chapter discusses the mechanical properties of elastic bodies. 06:42 Elasticity is the property of an object to regain its original shape and size. 08:51 Understanding the concept of elastic limit 13:12 Rubber chair is better than steel chair in resisting deformation 15:19 Stress is the force per unit area applied to solid bodies. 21:53 Different types of stress in solids 25:35 Hydrostatic stress changes the volume of the material. 27:20 Mechanical Properties of Solids 32:52 Understanding the impact of dimension change on mechanical properties 36:55 Volume metric strain and tangential shear strain 39:03 Shear strain is the deflection produced per unit length. 43:34 Understanding Hook's Law and its modifications 45:50 Hooke's Law explains the proportional relationship between stress and strain. 56:22 Young's Modulus is a type of modulus of elasticity. 58:29 Young's modulus and bulk modulus are explained with their respective formulas and units. 1:02:44 Understanding stress and strain graphs 1:04:55 Stress and strain are directly proportional on a straight line graph. 1:09:15 Understanding the transition from elastic to plastic behavior in materials. 1:11:19 Plastic behavior indicates the object will not restore its shape once the deforming force is removed. 1:21:27 Importance of understanding the weight limit and safety measures of a lift 1:23:02 Importance of understanding elasticity in machinery and construction 1:27:16 The formula for potential energy in terms of stress and strain 1:29:13 Poisson's ratio explains the relationship between lateral strain and longitudinal strain.
11:36 The steel body is more elastic in nature as it can stand more amount of force as compared to rubber band as it will become plastic if the force is more than what it can stand
this is what I was waiting for after gravitation one Shot🎉🎉🎉 , lage raho ashu sir Ji full support from my side 🤗🤗😇❤ abhi toh raat ke 1:58 horahe hai mai kal video dekhunga
Kya anshu sir ki all UA-cam physics all chapter lecture board ke layak hai pass ho jaye ke kya please reply 😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭 please reply 😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭
19:53 it is not a scalar quantity sir , it is vector quantity🙏 Because it is directly proportional to deforming force which is direction dependent Hope it's help you ❤❤ Btw amazing one shot sir..... *No hate*
Sir awesome video❤️❤️ btw i am watching bcs of experiments only bcs it makes me more fun during clearing concepts😂😂 Love your step pls continue this one shot series💫 🤩🤩 Those who agree---->like the video
Thankyou for this amazing lecture….all the concepts are understandable.This time I need a lecture which cover up the whole topics and you teach in a very simple way that can be easily understandable. Thankyou so much Sir for your efforts🙏🏻❤Will wait for the next chapter…✌
Sir literally enjoyed the session. I understood everything so easily. Thank you so much for your efforts. It really means a lot to us. Keep shining ✨😇🤗.
time stamps
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:29:00 poisson's ratio
thank you
Thanku so much ❤❤❤❤❤
It helps 🗿
Chorr😂😂😂
Asmita didi ka grp jindabad😂
@@JEE_2K25.AIR1 real
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:29:00 poisson's ratio
thank you
Tnx ❤
After this vote for Mechanical properties of fluid 😢👇
Hmm but thoda jldi 😢
Yes bahi ji bilkul aap dono sahi bol rhe ho❤❤
Kya anshu sir ki all UA-cam physics lecture board ke layak hai pass ho jaye ke kya
@@deepakdeepak-bm6xc Kya anshu sir ki all UA-cam physics lecture board ke layak hai pass ho jaye ke kya
Bhai ff player hai mai bhii
My 84 lavel id
Time stamps ❤
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:29:00 poisson's ratio
🦍
Bahut bahut dhanyavaad apka❤❤
3:14 -lecture start
3:26 -deforming force😊
7:04 -elasticity & elastic limit
9:56 -perfectly elastic body
14:57 -perfectly plastic body
15:43 -stress
Sorry guys i just watched this video ❤😊
Thank You Sir
I wish
May Krishna Bless U with lots of happiness 😊
जय श्री राधे कृष्ण 🙏❤️
one night before school exams, These one shots which cover the necessary portion for school are just more than a blessing
ye banda bhgwan lagta exam ke time as all ways 👽👽👽
Bhai terko kase pata Mera kal exam hai 😂😂😂
Fr😢
Fr
@@artisharma.... same
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:23:28 poisson's ratio
Thank you
Thank you so much
1:16:51
1:29:28 poission ratio
❤
16:53 sir stress is The restoring force per unit area..
And stress and pressure are not equal in pressure the force applied is externally but in stress the for is applied by the body internally..
Yeah yhi dekhne aya tha m, sir ko clear Krna chahiye tha ye
right sir ne force explain nhi kiya jo bhi apply ho rha h
@@prashant7634 yes bro
Both are same bro restoring force /area or deforming force/area 😂
0:00 Introduction
1:45 Machanical Properties of Solids
3:25 Deforming Force
4:52 Resorting Force
6:52 Elasticity
7:54 Elastic Limit
9:55 Perfectly Elastic Bodies
14:48 Perfectly Plastic Bodies
--- Mainly 2 Topics---
15:56 Stress
20:53 Types of Stress
22:04 Tensile Stress
23:48 Compressional Stress
25:25 Hydrostatic Stress
29:14 Tengential Stress
31:32 Strain
34:48 Types of Strain
35:00 Longitudinal Strain
36:27 Volumetric Strain
38:00 Tengential Strain
-------------
41:37 Hooke's Law
55:56 Modules of Elasticity
56:27 Young's Modulus
59:43 Bulk Modulus
1:00:18 Shear Modulus
1:00:18 Stress-Strain Graph 📈📉
1:00:18 Stress-Strain Graph 📉📈
1:12:45 Ductile
1:13:08 Brittle
1:13:14 Graph
1:15:15 Elastomers
1:16:47 Elastic after effect
1:17:48 Elastic Fatigue
1:18:47 Compressibility
1:20:21 Application Of Elasticity
1:23:41 Important Derivation of this Chapter, only 1
Elastic Potential Energy Of a Stretched Wire
1:29:03 Poisson's Ratio
1:31:09 Over (Skip)
_____________________________________________
1:14:13 A is brittle
B is ductile
53:39
if k of pen increases so we have to apply more stress to hve chanement in shape vice versa
if k of bike stand decreases so we have to apply less stress to have changement in straian vice versa
Time stamps ❤
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:29:00 poisson's ratio
thanks me by like please😇😔😔
Time stamps ❤
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:23:28 poisson's ratio
time stamps
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:29:00 poisson's ratio
thank you
Thank
Oho bete chatGPT ka use kar liya 😅
00:02 Mechanical Properties of Solids One Shot
02:12 This chapter discusses the mechanical properties of elastic bodies.
06:42 Elasticity is the property of an object to regain its original shape and size.
08:51 Understanding the concept of elastic limit
13:12 Rubber chair is better than steel chair in resisting deformation
15:19 Stress is the force per unit area applied to solid bodies.
21:53 Different types of stress in solids
25:35 Hydrostatic stress changes the volume of the material.
27:20 Mechanical Properties of Solids
32:52 Understanding the impact of dimension change on mechanical properties
36:55 Volume metric strain and tangential shear strain
39:03 Shear strain is the deflection produced per unit length.
43:34 Understanding Hook's Law and its modifications
45:50 Hooke's Law explains the proportional relationship between stress and strain.
56:22 Young's Modulus is a type of modulus of elasticity.
58:29 Young's modulus and bulk modulus are explained with their respective formulas and units.
1:02:44 Understanding stress and strain graphs
1:04:55 Stress and strain are directly proportional on a straight line graph.
1:09:15 Understanding the transition from elastic to plastic behavior in materials.
1:11:19 Plastic behavior indicates the object will not restore its shape once the deforming force is removed.
1:21:27 Importance of understanding the weight limit and safety measures of a lift
1:23:02 Importance of understanding elasticity in machinery and construction
1:27:16 The formula for potential energy in terms of stress and strain
1:29:13 Poisson's ratio explains the relationship between lateral strain and longitudinal strain.
32:29:32
@@ENTERTAINER12-ek😂
Padhe wala launda 🫡
@@diwedi__00 Na bhai AI generated hai ye🤡
@@SHUKLA.NAMANX insta main ho?
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:29:00 poisson's ratio
Thank me later 😢
timestamp : 53:20
bike's stand 's spring's constant k will be more since we have to give more stress to change it's bit dimensions.
thanks for the your ultimate efforts of all one shots
trust me guys all the one shot he uploaded were amazing
Students studying after half yearly vote here
Us bhai us😢
Apun
17:39 Sir Restoring force per unit area is called stree not deforming force
Stress= restoring force/area
wow wrong
Right, was here to see if anybody else noticed.
IDK WHY I FELL CONFUSED BTW STRESS AND STRAIN ALWAYS
Abe bhaj jitna deforming force lagaenge utna hi to restoring force develop hoga(newtone sahab ka 3rd niyam)🤦♂️
but its correct at equilibrium [rest]
time stamps
3:24 deforming force
5:06 restoring force
7:13 elasticity
7:55 elastic limit
10:05 perfectly elastic bodies
14:51 perfectly plastic bodies
15:36 stress
20:03 SI unit of stress
21:25 types of stress
29:24 strain
35:00 longitudinal strain
36:27 volumetric strain
41:32 hooke's law
54:48 types of modulus of elasticity
56:35 young modulus
59:40 bulk modulus
1:01:26 shear modulus
1:03:49 stress-strain graph
1:12:58 ductile and brittle material
1:15:32 elastomers
1:16:42 some other elastic effects
1:18:48 compressibility
1:20:21 applications of elasticity
1:23:23 elastic potential energy of stretched wire
1:29:00 poison's ratio
1 day before exam 😊 thank you sir
Best of luck for your tommorow exam 😂
😭
🥲😂😊
😂
🙏🙏🙌
Mera ni he😂
53:38 1-K Kam hoga aur 2 -K jyada hoga
1:14:11 A briitle hoga ,B ductile hoga
58:43
53:40 Modulus of elasticity : bike stand spring > pen spring
53:28
1- (k) less
2-(k)more
VOTE FOR 3X SPEED
Kyo Abe 3x pe dekhke notes nhi banane
@@garvitsingh8479 legends notes nhi banate
@@garvitsingh8479paper ke time pe kon notes banata hai 😂😂
@@flopshow9692....
😂😅
53:22 Pen spring, K is decreased
Bike's stand spring, K is increased
😅
What a great timing!!✨ I have a test tomorrow of this chapter and here you are ..
Thank you sir...❤
Kaisa hua
@@s.aksham01 18.5/20..👍🏻
@@urs_divii💪💪
Bhai koi question bta de imp solids ka
@@kishansr190types of modulus
11:51 Steel
13:29 Rubber Chair
53:26 Spring Of Pen Will Have Less K
Whereas Spring Of Bike Will Have More K
1:14:04 A=Brittle
B=Ductile
Vote for 4x speed
We need a one shot on mechanical properties of fluids as soon as possible 🙏....
Sir ye wala lecture aapne Bina headphones ke sunne wala bana Diya ,👍🏿👍🏿
😂
Same here😅
Guys kiss kiss ke shathh esaa hotaa hehh :
Jabb hmm one shot 2 ja 1 dinn me ktmm krneekkaa sochtee hehh....butt reality mein wehh sochaa hee rhh jataa heh...orr kmm se kmm 10 dinn lgg jattee hehh...jaa jadaa bcz bakee subjects mein lgg jattee hehh yehh soodd krr..😁
53:34 1) pen 🖊️--- spring---K (less)
2) Bike's stand ------ spring---K(more)
1:13:45 sir b will be more ductile since it can be stretched into long wires without fracture
9:04 yup
This channel always help me to get out from my toughest exam 😊
Deforming force-A force which changes shape and size of an object when applied
Vote for mechanical properties of fluids
Derivation
Let us take a wire of length L& Area of cross section A if we apply force F uniformly then it's length changes to l+∆l
So,
W=1/2kx^2
W=1/2k(∆l) ^2 (F=-kx)
W=1/2(k∆l) ∆l
W=1/2F∆l
Multiply and dividing RHS by Volume
W=1/2F∆l vol/vol
W=1/2(f∆l/A*l) vol
W=1/2(F/A) *(∆l/l) *vol
W=1/2*stress*strain*vol
Hence, U=1/2*stress*strain*vol
11:00 steel
13:30 rubber chair
53:40 pen ka modulus constant kam hoga as compare to bike ke spring constant se
1:13:55 A brittle and B ductile
This man is really hardworking.
Thank you so much sir.❤
11:53 stretching objects rubber band rubber ,springs and other objects
Sir please take mechanical properties of fluids also as soon as possible whenever you have time
Anyone in 2025
Bhai abhi to 2024 hi chal raha h tu koun Sai 25 main chale gya
Exam ke ek din pehle jab yaha pe aaoge,to 25 hi chal rha hoga bhai
Nah bro im from 2026
Send question paper. @@am_zexov
Hnm
Yes sir plz chemistry oneshots also
Yes sir
Yes ❤🔥
abhi Tak ni aaye jab chemistry ke one shots toh ab kha se ayenge🙂
@@rishi2182 bolne par sir kuch kar sakte h... Samjhe
@@SoulCode10 bhai merko kya samajna ajaye toh acha h lekin reality tumhe bhi pata aane hote toh April s ajate 💀
sir in our college .they told stress = restoring force / area?
yess this is more correct
Deforming force = restoring force
Chemistry one shots
Thank you sir tomorrow my gf is taking my test on these lesson thanks for saving my relationship 🙏🏻
Kaha se mili ??
😂
😂😂superb
1:14:14 A is ductile and B is brittle 1:14:14
Thankuu so much sir ❤this video helps me a lot ♥️♥️
Yes friend
Hello sir, currently I persuing diploma in computer science and engineering and the one shot is very helpful to me because I have a lot of syllabus but I have less time to study .
bhai kaunse nashe karta hai humhe bhi bata
@@krishnamaheshwari4748 Ganja wagera hoga 🤣
00:02 Mechanical Properties of Solids One Shot
02:12 This chapter discusses the mechanical properties of elastic bodies.
06:42 Elasticity is the property of an object to regain its original shape and size.
08:51 Understanding the concept of elastic limit
13:12 Rubber chair is better than steel chair in resisting deformation
15:19 Stress is the force per unit area applied to solid bodies.
21:53 Different types of stress in solids
25:35 Hydrostatic stress changes the volume of the material.
27:20 Mechanical Properties of Solids
32:52 Understanding the impact of dimension change on mechanical properties
36:55 Volume metric strain and tangential shear strain
39:03 Shear strain is the deflection produced per unit length.
43:34 Understanding Hook's Law and its modifications
45:50 Hooke's Law explains the proportional relationship between stress and strain.
56:22 Young's Modulus is a type of modulus of elasticity.
58:29 Young's modulus and bulk modulus are explained with their respective formulas and units.
1:02:44 Understanding stress and strain graphs
1:04:55 Stress and strain are directly proportional on a straight line graph.
1:09:15 Understanding the transition from elastic to plastic behavior in materials.
1:11:19 Plastic behavior indicates the object will not restore its shape once the deforming force is removed.
1:21:27 Importance of understanding the weight limit and safety measures of a lift
1:23:02 Importance of understanding elasticity in machinery and construction
1:27:16 The formula for potential energy in terms of stress and strain
1:29:13 Poisson's ratio explains the relationship between lateral strain and longitudinal strain.
11:36 The steel body is more elastic in nature as it can stand more amount of force as compared to rubber band as it will become plastic if the force is more than what it can stand
11:54 Rubber band
11:54 steel
Steel
kaun 2024 me dekh rha hai ut ke liye
Kal hai mera
2024 me video dalenge to 2024 me hi to dekhenge
1:13:45 A -> brittle; B -> ductile
53:40 bike ka spring constant will be more than the spring constant of pen
Thank you so much sir🙏🏻 ,
It helped me to revise the chapter easily and fastly .
Brilliant lecture sir 🎉
Thank You Sir
Who is watching one day before exam 😂
53:38 pen spring k👇
Bike's stand k☝️
1:13:30 B is ductile
A is brittle
LEGENDS WATCHING THIS LECTURE IN FEB 2024 🤣🤣🤣🤣
MARK ATTENDACNCE
Same to you
Thanks sir ❤❤❤ any one 2024 ??
55:17 pen's spring in this the K will be less
But in bike's stand spring in this the K will be more
this is what I was waiting for after gravitation one Shot🎉🎉🎉 , lage raho ashu sir Ji full support from my side 🤗🤗😇❤ abhi toh raat ke 1:58 horahe hai mai kal video dekhunga
Kis kis ka kal ka paper h 😂😂
Tera
Kisi ka ni jayada bhi mat fenk
bhai mera😢
Bhai Aaj ka hai subh dekh raha hu😂😂
😂😂
Let us take a wire of length l and with an area cross section a if we apply force f uniformly then its length changes to l plus delta l 1:26:05
Tomorrow is my physics test of this chapter
All the best 👍
Sir you are doing a great work I salute you sir 😢
Thank u beta aapka ❤
Kya anshu sir ki all UA-cam physics all chapter lecture board ke layak hai pass ho jaye ke kya please reply 😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭 please reply 😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭😭
@@YubLo-FiYes bro for board it is sufficient bss thodi si ques. Practice kr lena.. 👍☺️ Be happy.. 😉🥰
@@YubLo-Fiha bhai ❤❤
Wow! what a timing tomorrow i have a test of this chapter and your video is here to save me🛐✨
35 marks Ka na 😂😂
Same here bro .
@@PushpaDevi-vj7qx hahah I don't think mine is for 35 marks but all the best!😂
@@PushpaDevi-vj7qxghps?
@@_Piyush_dubey_ school ka to Dena padta hai Bhai
@@JapjeetSinghiit Exactly🥲
Such a nice lecture my all concept clear hats off to you Ashu sir thank you so much❤❤
Sir B is Ductile because it becomes plastic more earlier but has a greater range but a would break earlier as compared to B ( 1:13:50)
Is this enough for exams?
I don't know
@@GAMERS-io7mhso. What's you know
Yes
Thankyou sir for amazing way of teaching and making studies easier.
Hm Dil or dimag dono se apka dhanyawad krte hai!
1:31:21 the relief I got after finishing the lecture is inexpressible!! Thank you so much sir
27 October 2024 me Kaun Kaun ye chapter padh Raha hai
Songs banata hu toh kya hua , 11th class bhi pass krni h😢
Exactly 😂
19:53 it is not a scalar quantity sir , it is vector quantity🙏
Because it is directly proportional to deforming force which is direction dependent
Hope it's help you ❤❤
Btw amazing one shot sir..... *No hate*
Thank u soo much sir! tomorrow is my exam and now I am confident that I'll be able to score well.
words are not enough🙏
Sir awesome video❤️❤️ btw i am watching bcs of experiments only bcs it makes me more fun during clearing concepts😂😂
Love your step pls continue this one shot series💫 🤩🤩
Those who agree---->like the video
😅
Same here
Batch 2024-25 students attendance here
Who watches this before one day of exam😂
53:36 1.Pen-K-less
2.bike's stand-K-more 😊
This one shot is as like as your earlier video of that chapter (I had seen both ) my best teacher 👍👍👍
Thankyou for this amazing lecture….all the concepts are understandable.This time I need a lecture which cover up the whole topics and you teach in a very simple way that can be easily understandable. Thankyou so much Sir for your efforts🙏🏻❤Will wait for the next chapter…✌
But pls upload it soon🙏🏻
53:40 pen ka spring constant (k) is less
Cycle stand ke spring constant (k) is more
Maa kasam jisne subscribe nhi kiya wo exam mai pakka fail.. 😢😮
Tu agar aisa comment dalega to tu fail ho jayega...
Agar tumhane ye comment delete nahi kiya to tu fail ho jayega...😅
Tum dono chinta mat Karo dono ache numbero se pass hoga 😊😊
@@Fact_boy_0-k bhai mai mere school ka topper hoon
Sir, stress is restoring force according to Ncert
Hlo
Hlo
Yes this is correct according to ncert stress is restoring force
53:19
1. K is less because less stress is needed for strain.
2. K is more because more stress is needed for strain.
17:18 but sir Ncert says the restoring force er unit area is known as stress....????
Yes
Sir literally enjoyed the session. I understood everything so easily. Thank you so much for your efforts. It really means a lot to us. Keep shining ✨😇🤗.
Vote for 2/12/24 paper😅
Sir so thank you ☺️ to you for bringing this brilliant one shot video ...... Once again thanks 🙏❤️
1:14:11 B=ductile , A=brittle
GOOD EVENING SIR.THANK YOU FOR SUCH A WONDERFULL EXPLAINATION VERY USEFUL🙏.BTW SIR U DID NOT ADD THIS ONE SHOT IN ONE SHOT PLAYLIST
You're a damn good teacher sir! Your videos are extremely helpful to us
Love from Delhi
Kya ye one shot dekhar mai marks la pauga
Nhi😂😂
@@Krishna..289 nhi
@@Krishna..289 kyu
@@Dogila_Edit sirf shot dekhne sd kuch nhi hota
@@Krishna..289 kya karu fir
Rubber band