XI Class Mathematics

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XI Class Chemistry

Unit 1 Some Basic Concepts of Chemistry 1

1.1 Importance of Chemistry 1

1.2 Nature of Matter 2

1.3 Properties of Matter and their Measurement 4

1.4 Uncertainty in Measurement 8

1.5 Laws of Chemical Combinations 11

1.6 Dalton’s Atomic Theory 13

1.7 Atomic and Molecular Masses 13

1.8 Mole concept and Molar Masses 15

1.9 Percentage Composition 15

1.10 Stoichiometry and Stoichiometric Calculations 17

Unit 2 Structure of Atom 26

2.1 Sub-atomic Particles 27

2.2 Atomic Models 29

2.3 Developments Leading to the Bohr’s Model of Atom 34

2.4 Bohr’s Model for Hydrogen Atom 42

2.5 Towards Quantum Mechanical Model of the Atom 46

2.6 Quantum Mechanical Model of Atom 49

Unit 3 Classification of Elements and Periodicity in Properties 70

3.1 Why do we need to Classify Elements ? 70

3.2 Genesis of Periodic Classification 71

3.3 Modern Periodic Law and the present form of the Periodic Table 75

3.4 Nomenclature of Elements with Atomic Number > 100 75

3.5 Electronic Configurations of Elements and the Periodic Table 78

3.6 Electronic Configurations and Types of Elements: 79

3.7 Periodic Trends in Properties of Elements 82

Unit 4 Chemical Bonding and Molecular Structure 96

4.1 Kössel-Lewis Approach to Chemical Bonding 97

4.2 Ionic or Electrovalent Bond 102

4.3 Bond Parameters 103

4.4 The Valence Shell Electron Pair Repulsion (VSEPR) Theory 108

4.5 Valence Bond Theory 113

4.6 Hybridisation 116

4.7 Molecular Orbital Theory 121

4.8 Bonding in Some Homonuclear Diatomic Molecules 125

4.9 Hydrogen Bonding 127

Unit 5 States of Matter 132

5.1 Intermolecular Forces 133

5.2 Thermal Energy 135

5.3 Intermolecular Forces vs Thermal Interactions 135

5.4 The Gaseous State 135

5.5 The Gas Laws 136

5.6 Ideal Gas Equation 141

5.7 Kinetic Molecular Theory of Gases 143

5.8 Behaviour of real gases: Deviation from Ideal Gas Behaviour 144

5.9 Liquifaction of Gases 147

5.10 Liquid State 149

Unit 6 Thermodynamics 154

6.1 Thermodynamic State 155

6.2 Applications 158

6.3 Measurement of ÄU and ÄH: Calorimetry 163

6.4 Enthalpy Change, ÄrH of a Reaction 164

6.5 Enthalpies for Different Types of Reactions 170

6.6 Spontaneity 174

6.7 Gibbs Energy Change and Equilibrium 179

Unit 7 Equilibrium 185

7.1 Equilibrium in Physical Processes 186

7.2 Equilibrium in Chemical Processes – Dynamic Equilibrium 189

7.3 Law of Chemical Equilibrium and Equilibrium Constant 191

7.4 Homogeneous Equilibria 194

7.5 Heterogeneous equilibria 197

7.6 Applications of Equilibrium Constants 198

7.7 Relationship between Equilibrium Constant K, 201

Reaction Quotient Q and Gibbs Energy G

7.8 Factors Affecting Equilibria 201

7.9 Ionic Equilibrium in Solution 205

7.10 Acids, Bases and Salts 206

7.11 Ionization of Acids and Bases 209

7.12 Buffer Solutions 219

7.13 Solubility Equilibria of Sparingly Soluble Salts

Unit 8 Redox Reactions 255

8.1 Classical Idea of Redox Reactions-Oxidation and Reduction Reactions 255

8.2 Redox Reactions in Terms of Electron Transfer Reactions 257

8.3 Oxidation Number 259

8.4 Redox Reactions and Electrode Processes 269

Unit 9 Hydrogen 276

9.1 Position of Hydrogen in the Periodic Table 276

9.2 Dihydrogen, H2 277

9.3 Preparation of Dihydrogen, H2 278

9.4 Properties of Dihydrogen 278

9.5 Hydrides 280

9.6 Water 281

9.7 Hydrogen Peroxide (H2O2) 285

9.8 Heavy Water, D2O 286

9.9 Dihydrogen as a Fuel 286

Unit 10 The s-Block Elements 291

10.1 Group 1 Elements: Alkali Metals 292

10.2 General Characteristics of the Compounds of the Alkali Metals 295

10.3 Anomalous Properties of Lithium 296

10.4 Some Important Compounds of Sodium 296

10.5 Biological Importance of Sodium and Potassium 298

10.6 Group 2 Elements : Alkaline Earth Metals 298

10.7 General Characteristics of Compounds of the Alkaline Earth Metals 301

10.8 Anomalous Behaviour of Beryllium 302

10.9 Some Important Compounds of Calcium 302

10.10 Biological Importance of Magnesium and Calcium 304

Unit 11 The p-Block Elements 307

11.1 Group 13 Elements: The Boron Family 309

11.2 Important Trends and Anomalous Properties of Boron 312

11.3 Some Important Compounds of Boron 312

11.4 Uses of Boron and Aluminium and their Compounds 314

11.5 Group 14 Elements: The Carbon Family 314

11.6 Important Trends and Anomalous Behaviour of Carbon 317

11.7 Allotropes of Carbon 317

11.8 Some Important Compounds of Carbon and Silicon 319

Unit 12 Organic Chemistry – Some Basic Principles and Techniques 326

12.1 General Introduction 326

12.2 Tetravalence of Carbon: Shapes of Organic Compounds 327

12.3 Structural Representations of Organic Compounds 328

12.4 Classification of Organic Compounds 331

12.5 Nomenclature of Organic Compounds 332

12.6 Isomerism 340

12.7 Fundamental Concepts in Organic Reaction Mechanism 341

12.8 Methods of Purification of Organic Compounds 348

12.9 Qualitative Analysis of Organic Compounds 354

12.10 Quantitative Analysis 355

Unit 13 Hydrocarbons 365

13.1 Classification 365

13.2 Alkanes 366

13.3 Alkenes 376

13.4 Alkynes 384

13.5 Aromatic Hydrocarbon 388

13.6 Carcinogenicity and Toxicity 395

Unit 14 Environmental Chemistry 398

14.1 Environmental Pollution 398

14.2 Atmospheric Pollution 399

14.3 Water Pollution 406

14.4 Soil Pollution 408

14.5 Industrial Waste 409

14.6 Strategies to control Environmental Pollution 410

14.7 Green Chemistry 4

XI Class Physic

C H A P T E R 1

PHYSICAL WORLD

1.1 What is physics? 1

1.2 Scope and excitement of physics 2

1.3 Physics, technology and society 5

1.4 Fundamental forces in nature 6

1.5 Nature of physical laws 10

C H A P T E R 2

UNITS AND MEASUREMENTS

2.1 Introduction 16

2.2 The international system of units 16

2.3 Measurement of length 18

2.4 Measurement of mass 21

2.5 Measurement of time 22

2.6 Accuracy, precision of instruments and errors in measurement 22

2.7 Significant figures 27

2.8 Dimensions of physical quantities 31

2.9 Dimensional formulae and dimensional equations 31

2.10 Dimensional analysis and its applications 32

C H A P T E R 3

MOTION IN A STRAIGHT LINE

3.1 Introduction 39

3.2 Position, path length and displacement 39

3.3 Average velocity and average speed 42

3.4 Instantaneous velocity and speed 43

3.5 Acceleration 45

3.6 Kinematic equations for uniformly accelerated motion 47

3.7 Relative velocity 51

C H A P T E R 4

MOTION IN A PLANE

4.1 Introduction 65

4.2 Scalars and vectors 65

4.3 Multiplication of vectors by real numbers 67

4.4 Addition and subtraction of vectors graphical method 67

4.5 Resolution of vectors 69

4.6 Vector addition . analytical method 71

4.7 Motion in a plane 72

4.8 Motion in a plane with constant acceleration 75

4.9 Relative velocity in two dimensions 76

4.10 Projectile motion 77

4.11 Uniform circular motion 79

C H A P T E R 5

LAWS OF MOTION

5.1 Introduction 89

5.2 Aristotle.s fallacy 90

5.3 The law of inertia 90

5.4 Newton.s first law of motion 91

5.5 Newton.s second law of motion 93

5.6 Newton.s third law of motion 96

5.7 Conservation of momentum 98

5.8 Equilibrium of a particle 99

5.9 Common forces in mechanics 100

5.10 Circular motion 104

5.11 Solving problems in mechanics 105

C H A P T E R 6

WORK, ENERGY AND POWER

6.1 Introduction 114

6.2 Notions of work and kinetic energy : The work-energy theorem 116

6.3 Work 116

6.4 Kinetic energy 117

6.5 Work done by a variable force 118

6.6 The work-energy theorem for a variable force 119

6.7 The concept of potential energy 120

6.8 The conservation of mechanical energy 121

6.9 The potential energy of a spring 123

6.10 Various forms of energy : the law of conservation of energy 126

6.11 Power 128

6.12 Collisions 129

C H A P T E R 7

SYSTEM OF PARTICLES AND ROTATIONAL MOTION

7.1 Introduction 141

7.2 Centre of mass 144

7.3 Motion of centre of mass 148

7.4 Linear momentum of a system of particles 149

7.5 Vector product of two vectors 150

7.6 Angular velocity and its relation with linear velocity 152

7.7 Torque and angular momentum 154

7.8 Equilibrium of a rigid body 158

7.9 Moment of inertia 163

7.10 Theorems of perpendicular and parallel axes 164

7.11 Kinematics of rotational motion about a fixed axis 167

7.12 Dynamics of rotational motion about a fixed axis 169

7.13 Angular momentum in case of rotations about a fixed axis 171

7.14 Rolling motion 173

C H A P T E R 8

GRAVITATION

8.1 Introduction 183

8.2 Kepler.s laws 184

8.3 Universal law of gravitation 185

8.4 The gravitational constant 189

8.5 Acceleration due to gravity of the earth 189

8.6 Acceleration due to gravity below and above the surface of earth 190

8.7 Gravitational potential energy 191

8.8 Escape speed 193

8.9 Earth satellite 194

8.10 Energy of an orbiting satellite 195

8.11 Geostationary and

C H A P T E R 9

MECHANICAL PROPERTIES OF SOLIDS

9.1 Introduction 231

9.2 Elastic behaviour of solids 232

9.3 Stress and strain 232

9.4 Hooke’s law 234

9.5 Stress-strain curve 234

9.6 Elastic moduli 235

9.7 Applications of elastic behaviour of materials 240

C H A P T E R 10

MECHANICAL PROPERTIES OF FLUIDS

10.1 Introduction 246

10.2 Pressure 246

10.3 Streamline flow 253

10.4 Bernoulli’s principle 254

10.5 Viscosity 258

10.6 Reynolds number 260

10.7 Surface tension 261

C H A P T E R 11

THERMAL PROPERTIES OF MATTER

11.1 Introduction 274

11.2 Temperature and heat 274

11.3 Measurement of temperature 275

11.4 Ideal-gas equation and absolute temperature 275

11.5 Thermal expansion 276

11.6 Specific heat capacity 280

11.7 Calorimetry 281

11.8 Change of state 282

11.9 Heat transfer 286

11.10 Newton’s law of cooling 290

C H A P T E R 12

THERMODYNAMICS

12.1 Introduction 298

12.2 Thermal equilibrium 299

12.3 Zeroth law of thermodynamics 300

12.4 Heat, internal energy and work 300

12.5 First law of thermodynamics 302

12.6 Specific heat capacity 303

12.7 Thermodynamic state variables and equation of state 304

12.8 Thermodynamic processes 305

12.9 Heat engines 308

12.10 Refrigerators and heat pumps 308

12.11 Second law of thermodynamics 309

12.12 Reversible and irreversible processes 310

12.13 Carnot engine 311

C H A P T E R 13

KINETIC THEORY

13.1 Introduction 318

13.2 Molecular nature of matter 318

13.3 Behaviour of gases 320

13.4 Kinetic theory of an ideal gas 323

13.5 Law of equipartition of energy 327

13.6 Specific heat capacity 328

13.7 Mean free path 330

C H A P T E R 14

OSCILLATIONS

14.1 Introduction 336

14.2 Periodic and oscilatory motions 337

14.3 Simple harmonic motion 339

14.4 Simple harmonic motion and uniform circular motion 341

14.5 Velocity and acceleration in simple harmonic motion 343

14.6 Force law for simple harmonic motion 344

14.7 Energy in simple harmonic motion 345

14.8 Some systems executing Simple Harmonic Motion 347

14.9 Damped simple harmonic motion 350

14.10 Forced oscillations and resonance 352

C H A P T E R 15

WAVES

15.1 Introduction 363

15.2 Transverse and longitudinal waves 365

15.3 Displacement relation in a progressive wave 366

15.4 The speed of a travelling wave 369

15.5 The principle of superposition of waves 372

15.6 Reflection of waves 374

15.7 Beats 378

15.8 Doppler effect