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PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015

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CLASS XICHAPTER WISE IMPORTANT TOPIC FOR

AIIMS & CBSE-AIPMT-2015

CHAPTER THREE MOTION IN A STRAIGHT LINE

3.3 AVERAGE VELOCITY AND AVERAGE SPEED [CBSE-AIPMT-2015]3.6 KINEMATICS EQUATIONS FOR UNIFORMLY ACCELERATED MOTION

Displacement and distance as area under velocity–time graph [CBSE-AIPMT-2015]Displacement–time formula [CBSE-AIPMT-2015]Distance travelled in nth second of motion [CBSE-AIPMT-2015]Instantaneous Acceleration [CBSE-AIPMT-2015]Velocity at any time tCASE II B : If particle is projected vertically downward with speedu from tower of height H: Velocity at any time t [AIIMS-2015; CBSE-AIPMT-2015]CASE II C : If particle is dropped with u = 0 from tower of height Hi.e., Particle falling freely under gravity [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER FOUR MOTION IN A PLANE

4.4 ADDITION & SUBTRACTION OF VECTORS-GRAPHICAL METHOD[AIIMS-2015; CBSE-AIPMT-2015]

4.6 VECTOR ADDITION - ANALYTICAL METHOD [CBSE-AIPMT-2015]SCALAR OR DOT PRODUCT OF TWO VECTORS [AIIMS-2015]

4.7 MOTION IN A PLANE4.7.1 Position Vector and Displacement

Average Velocity [CBSE-AIPMT-2015]Instantaneous velocity [AIIMS-2015]

4.8 MOTION IN A PLANE WITH CONSTANT ACCELERATION [CBSE-AIPMT-2015]4.9 MOTION IN A PLANE WITH VARIABLE ACCELERATION

Average acceleration [AIIMS-2015]Instantaneous acceleration [AIIMS-2015]

4.10 PROJECTILE MOTION



Following terms are used in relation to projectile motion [CBSE-AIPMT-2015]Equation of trajectory [AIIMS-2015]Maximum Height (H) [AIIMS-2015; CBSE-AIPMT-2015]

The maximum height H and the range R are related to each other as[AIIMS-2015; CBSE-AIPMT-2015]

Radius of curvature at any point on the path of a projectile :

Projectile thrown from a height : Horizontally [AIIMS-2015]

At an angle above horizontal [AIIMS-2015]

CHANGE OF FRAME

RELATIVE VELOCITY IN ONE DIMENSION [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER FIVE LAWS OF MOTION

5.3 THE LAW OF INERTIA & 5.4 NEWTON’S FIRST LAW OF MOTION [AIIMS-2015]

MOMENTUM [CBSE-AIPMT-2015]

NEWTON’S SECOND LAW OF MOTION [AIIMS-2015; CBSE-AIPMT-2015]

5.11 SOLVING PROBLEMS IN MECHANICS (APPLICATION OF NEWTON’S LAWS)

[AIIMS-2015; CBSE-AIPMT-2015]

Spring Particle System [AIIMS-2015]

5.9.1 FRICTION

Static Friction [AIIMS-2015; CBSE-AIPMT-2015]

Laws of Static Friction [CBSE-AIPMT-2015]

Kinetic Friction [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER SIX WORK, ENERGY AND POWER

6.1 INTRODUCTION

6.1.1 The Scalar Product and 6.3 Work [CBSE-AIPMT-2015]

Work Done by Kinetic Friction [AIIMS-2015]6.5 WORK DONE BY A VARIABLE FORCE : The one–dimensional case


6.11 POWER [AIIMS-2015; CBSE-AIPMT-2015]



6.4 KINETIC ENERGY [AIIMS-2015]

6.7 THE CONCEPT OF POTENTIAL ENERGY [CBSE-AIPMT-2015]

6.6 THE WORK-ENERGY THEOREM FOR A VARIABLE FORCE


6.8 THE CONSERVATION OF MECHANICAL ENERGY [CBSE-AIPMT-2015]

Stability [CBSE-AIPMT-2015]

CHAPTER FIVE, SIX & SEVEN IMPULSE, CONSERVATION OF

LINEAR-MOMENTUM, CENTER OF MASS & COLLISIONS

5.7 LAW OF CONSERVATION OF LINEAR–MOMENTUM [CBSE-AIPMT-2015]

In one dimension [CBSE-AIPMT-2015]

In two dimensions [CBSE-AIPMT-2015]

7.3 MOTION OF THE CENTRE OF MASS [AIIMS-2015; CBSE-AIPMT-2015]

7.4 LINEAR MOMENTUM OF A SYSTEM OF PARTICLES

Force [AIIMS-2015]

6.12 COLLISION

6.12.1 Elastic and Inelastic Collisions [CBSE-AIPMT-2015]

6.12.2 Collision in One Dimension

Perfectly elastic collision in one dimension [AIIMS-2015]

Partially elastic or semi elastic or inelastic collision in one dimension

[CBSE-AIPMT-2015]

CHAPTER SEVEN CIRCULAR AND ROTATIONAL MECHANICS

7.11 KINEMATICS OF ROTATIONAL MOTION ABOUT A FIXED AXIS

Relations among Angular Variables for Constant Angular Acceleration

[CBSE-AIPMT-2015]

Average and Instantaneous Angular Acceleration [CBSE-AIPMT-2015]

7.6 ANGULAR VELOCITY AND ITS RELATION WITH LINEAR VELOCITY

[CBSE-AIPMT-2015]

Vector relation between linear and angular velocity and acceleration [AIIMS-2015]

Application of uniform circular motion [AIIMS-2015; CBSE-AIPMT-2015]



7.7 TORQUE () OR MOMENT OF FORCE [AIIMS-2015]7.9 MOMENTS OF INERTIA (OR ROTATIONAL INERTIA) [AIIMS-2015]

Rotational kinetic energy [AIIMS-2015]

7.10 THEOREMS OF PERPENDICULAR AND PARALLEL AXES [CBSE-AIPMT-2015]

Theorem of perpendicular axes for a lamina [CBSE-AIPMT-2015]

Rod [AIIMS-2015; CBSE-AIPMT-2015]

Ring [CBSE-AIPMT-2015]

Disc [CBSE-AIPMT-2015]

Solid cylinder or uniform thick rod [AIIMS-2015]

Sphere [AIIMS-2015]

7.12 DYNAMICS OF ROTATIONAL MOTION ABOUT A FIXED AXIS [CBSE-AIPMT-2015]

Newton's second law for rotation [CBSE-AIPMT-2015]

Work, Power and the Work-Kinetic Energy theorem [CBSE-AIPMT-2015]

7.13.1 Conservation of angular momentum [AIIMS-2015; CBSE-AIPMT-2015]

Accelerated pure rolling [CBSE-AIPMT-2015]

Pure Rolling Motion on rough inclined plane [AIIMS-2015; CBSE-AIPMT-2015]

Pure Rolling Motion on rough curved plane [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER EIGHT GRAVITATION

8.7 GRAVITATIONAL POTENTIAL ENERGY [AIIMS-2015; CBSE-AIPMT-2015]

Gravitational Potential V [AIIMS-2015; CBSE-AIPMT-2015]

8.5 ACCELERATION DUE TO GRAVITY OF THE EARTH [AIIMS-2015]

Variations in `g' [AIIMS-2015]

8.6 Acceleration due to gravity below the surface of earth [AIIMS-2015]

8.6 Acceleration due to gravity above the surface of earth [AIIMS-2015]

Due to Rotation of Earth [AIIMS-2015]

8.8 ESCAPE VELOCITY [AIIMS-2015; CBSE-AIPMT-2015]

Conservation of Mechanical Energy in Gravitation [AIIMS-2015]

8.9 EARTH SATELLITES [CBSE-AIPMT-2015]

Orbital velocity vo [AIIMS-2015; CBSE-AIPMT-2015]



8.11 GEOSTATIONARY AND POLAR SATELLITES

Angular momentum L [AIIMS-2015; CBSE-AIPMT-2015]

8.10 ENERGY OF AN ORBITING SATELLITE [AIIMS-2015; CBSE-AIPMT-2015]




AIIMS & CBSE-AIPMT - 2015

CHAPTER NINE MECHANICAL PROPERTIES OF SOLIDS

9.1 INTRODUCTIONMolecular picture of matter, interatomic and inter molecular forces [AIIMS-2015]

9.3 STRESS AND STRAIN [AIIMS-2015]9.6 ELASTIC MODULI

9.6.1 Young’s Modulus [AIIMS-2015]9.6.3 Shear Modulus (Modulus of Rigidity) [AIIMS-2015]

CHAPTER TEN MECHANICAL PROPERTIES OF FLUIDS10.2 PRESSURE

10.2.3 Atmospheric Pressure and Gauge PressureSteady and turbulent flow [AIIMS-2015]

10.3 STREAMLINE FLOWEquation of continuity [AIIMS-2015]

10.4 BERNOULLI’S PRINCIPLE [AIIMS-2015]

10.5 VISCOSITY [AIIMS-2015]

Terminal velocity [AIIMS-2015]10.7 SURFACE TENSION [AIIMS-2015]

10.7.1 Surface energy [AIIMS-2015; CBSE-AIPMT-2015]

10.7.4 Drops and Bubbles [AIIMS-2015]

10.7.5 Capillary Rise [AIIMS-2015]

CHAPTER ELEVEN THERMAL PROPERTIES OF MATTER

11.2 TEMPERATURE AND HEATTemperature [CBSE-AIPMT-2015]



11.5 THERMAL EXPANSION [AIIMS-2015]

11.8 CHANGE OF STATE [AIIMS-2015; CBSE-AIPMT-2015]

Heating curve [AIIMS-2015; CBSE-AIPMT-2015]

11.8.1 Latent Heat [AIIMS-2015; CBSE-AIPMT-2015]

Heat of transformation [AIIMS-2015; CBSE-AIPMT-2015]

Latent heat of vapourisation [AIIMS-2015]

11.9 HEAT TRANSFER

11.9.1 Conduction [AIIMS-2015; CBSE-AIPMT-2015]

Series and parallel combination of thermal resistances [AIIMS-2015]

11.9.3 Radiation [AIIMS-2015; CBSE-AIPMT-2015]

Emissive power [AIIMS-2015]

Kirchhoff`s law [CBSE-AIPMT-2015]

Stefan-Boltzman’s law [CBSE-AIPMT-2015]

CHAPTER TWELVE THERMODYNAMICS

12.2 THERMAL EQUILIBRIUM

Thermodynamic properties (or co-ordinates or variable) [CBSE-AIPMT-2015]

12.4 HEAT, INTERNAL ENERGY AND WORK

WORK DONE BY A GAS (OR PdV WORK) [AIIMS-2015]

12.5 FIRST LAW OF THERMODYNAMICS

SPECIFIC HEAT CAPACITIES OF GASES [CBSE-AIPMT-2015]

MAYER'S EQUATION [AIIMS-2015]

Why is CP > CV [CBSE-AIPMT-2015]

12.8 THERMODYNAMIC PROCESSES [AIIMS-2015]

12.8.1 Quasi-static processes

Isochoric Process [AIIMS-2015]

Cyclic Process [AIIMS-2015]

12.9 HEAT ENGINES [AIIMS-2015]



12.11 SECOND LAW OF THERMODYNAMICS [AIIMS-2015]

CHAPTER THIRTEEN KINETIC THEORY

13.4 KINETIC THEORY OF AN IDEAL GAS [AIIMS-2015]

13.4.2 Kinetic Interpretation of Temperature [CBSE-AIPMT-2015]

CHAPTER FOURTEEN SIMPLE HARMONIC MOTION

14.3 SIMPLE HARMONIC MOTION [CBSE-AIPMT-2015]

Differential equation of SHM [CBSE-AIPMT-2015]

14.4 SIMPLE HARMONIC MOTION AND UNIFORM CIRCULAR MOTION [CBSE-AIPMT-2015]

SOME PHYSICAL QUANTITIES OF INTEREST IN SHM [CBSE-AIPMT-2015]

Displacement [CBSE-AIPMT-2015]

14.5 VELOCITY AND ACCELERATION IN SIMPLE HARMONIC MOTION


Acceleration [CBSE-AIPMT-2015]

14.6 FORCE LAW FOR SIMPLE HARMONIC MOTION

14.7 ENERGY IN SIMPLE HARMONIC MOTION [AIIMS-2015]

14.8 SOME SYSTEMS EXCUTING SIMPLE HARMONIC MOTION


14.8.1 Oscillations due to a Spring [AIIMS-2015; CBSE-AIPMT-2015]

14.8.2 The Simple Pendulum [AIIMS-2015]

Time period of simple pendulum when point of suspension is accelerting [AIIMS-2015]

Super Position of S.H.M.'s [AIIMS-2015]

CHAPTER FIFTEEN WAVES

15.1 INTRODUCTION [CBSE-AIPMT-2015]

Phase () [CBSE-AIPMT-2015]

15.2 TRANSVERSE AND LONGITUDINAL WAVES [CBSE-AIPMT-2015]

15.4 THE SPEED OF A TRAVELLING WAVE



15.4.1 Speed of a Transverse Wave on Stretched String


Vibration of Composite Strings [CBSE-AIPMT-2015]

15.4.2 Speed of a Longitudinal Wave (Speed of Sound) [CBSE-AIPMT-2015]

15.5 THE PRINCIPLE OF SUPERPOSITION OF WAVES [AIIMS-2015]

15.6 REFLECTION AND REFRACTION OF WAVES [AIIMS-2015; CBSE-AIPMT-2015]

Closed organ pipe [AIIMS-2015]

Open organ pipe [AIIMS-2015]

Tuning Fork [CBSE-AIPMT-2015]

Beats [CBSE-AIPMT-2015]

Determination of Unknown Frequency [CBSE-AIPMT-2015]

15.8 DOPPLER’S EFFECT [AIIMS-2015; CBSE-AIPMT-2015]



CLASS XIICHAPTER WISE IMPORTANT TOPIC FOR

AIIMS & CBSE-AIPMT - 2015CHAPTER ONE ELECTRIC CHARGES AND FIELDS

1.5 BASIC PROPERTIES OF ELECTRIC CHARGE [AIIMS-2015]1.5.3 Quantisation of charge [AIIMS-2015]

1.6 COULOMB'S LAW [CBSE-AIPMT-2015]1.7 FORCE BETWEEN MULTIPLE CHARGES [CBSE-AIPMT-2015]1.8 ELECTRIC FIELD [AIIMS-2015; CBSE-AIPMT-2015]

1.8.2 Physical significance of electric fieldMotion of a charged particle in an electric field

1.9 ELECTRIC FIELD LINES [AIIMS-2015]1.10 ELECTRIC FLUX [AIIMS-2015; CBSE-AIPMT-2015]1.12 DIPOLE IN A UNIFORM EXTERNAL FIELD [CBSE-AIPMT-2015]1.13 CONTINOUS CHARGE DISTRIBUTION [AIIMS-2015]

Electric Field due to a finite line of charge with uniform linearcharge density [AIIMS-2015]

1.14 GAUSS'S LAW [AIIMS-2015; CBSE-AIPMT-2015]1.15 APPLICATIONS OF GAUSS'S LAW [AIIMS-2015; CBSE-AIPMT-2015]

1.15.1 Field due to an infinitely long straight uniformly charged wire[AIIMS-2015; CBSE-AIPMT-2015]

1.15.3 Field due to a uniformly charged thin spherical shell[AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER TWO ELECTROSTATIC POTENTIAL AND CAPACITANCE2.4 POTENTIAL DUE TO AN ELECTRIC DIPOLE [CBSE-AIPMT-2015]2.5 POTENTIAL DUE TO A SYSTEM OF CHARGES [AIIMS-2015; CBSE-AIPMT-2015]2.6 EQUIPOTENTIAL SURFACE [CBSE-AIPMT-2015]

2.6.1 Relation between field and potential [CBSE-AIPMT-2015]2.7 POTENTIAL ENERGY OF A SYSTEM OF CHARGES [AIIMS-2015]



Electric Potential Energy of a System of Charges [AIIMS-2015]2.8 POTENTIAL ENERGY IN AN EXTERNAL FIELD [CBSE-AIPMT-2015]

2.8.1 Potential energy of a single charge [CBSE-AIPMT-2015]2.8.3 Potential energy of a dipole of in an external field [CBSE-AIPMT-2015]

Potential energy [CBSE-AIPMT-2015]2.11 CAPACITORS AND CAPACITANCE [AIIMS-2015]

Isolated conductor [AIIMS-2015]As the potential of earth is assumed to be zero, capacity of earthor a conductor connected to earth (whatever be its shape or chargeon it) will be [AIIMS-2015]

2.13 EFFECT OF DIELECTRIC ON CAPACITANCE [CBSE-AIPMT-2015]2.14 COMBINATION OF CAPACITORS [AIIMS-2015; CBSE-AIPMT-2015]

2.14.1 Capacitors in Series [AIIMS-2015; CBSE-AIPMT-2015]2.14.2 Capacitors in Parallel [AIIMS-2015]

2.15 ENERGY STORED IN A CAPACITOR [AIIMS-2015; CBSE-AIPMT-2015]Energy density in a parallel plate capacitor [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER THREE CURRENT ELECTRICITY3.4 OHM’S LAW

Dependence of the Resistance [CBSE-AIPMT-2015]3.9 ELECTRICAL ENERGY, POWER [CBSE-AIPMT-2015]

Seebeck Effect [CBSE-AIPMT-2015]Neutral and Inversion Temperature [CBSE-AIPMT-2015]Thomson Effect [AIIMS-2015]

3.10 COMBINATION OF RESISTORS–SERIES AND PARALLEL [CBSE-AIPMT-2015]Resistance in series [CBSE-AIPMT-2015]Resistance in Parallel [CBSE-AIPMT-2015]Wheatstone Bridge [AIIMS-2015; CBSE-AIPMT-2015]Bulbs or Heater wires in series and parallel [AIIMS-2015; CBSE-AIPMT-2015]

3.11 CELLS, EMF AND INTERNAL RESISTANCE [CBSE-AIPMT-2015]Relation among E, V and r [AIIMS-2015; CBSE-AIPMT-2015]

3.12 CELLS IN SERIES AND IN PARALLEL [CBSE-AIPMT-2015]3.13 KIRCHHOFF’S RULES [AIIMS-2015; CBSE-AIPMT-2015]



3.14 WHEATSTONE’S BRIDGE [AIIMS-2015; CBSE-AIPMT-2015]Finding Req for complex systems of resistors [AIIMS-2015]

3.16 POTENTIOMETER [CBSE-AIPMT-2015]Measurement of internal resistance [CBSE-AIPMT-2015]

3.17 GALVANOMETER [CBSE-AIPMT-2015]

CHAPTER FORTH MOVING CHARGES AND MAGNETISM4.2 MAGNETIC FORCE

4.2.2 Magnetic Field, Lorentz Force [CBSE-AIPMT-2015]4.2.3 Magnetic force on a current-carrying conductor [AIIMS-2015; CBSE-AIPMT-2015]

Force acting on a current loop in a magnetic field [CBSE-AIPMT-2015]4.3 MOTION IN A MAGNETIC FIELD [AIIMS-2015; CBSE-AIPMT-2015]4.4 MOTION IN COMBINED ELECTRIC AND MAGNETIC FIELDS

4.4.2 Cyclotron [AIIMS-2015]4.6 Application of Biot-Savart law

4.6.1 Field due to a straight current-carrying wire [AIIMS-2015]4.6.2 Field due to a current loop (or its segment) at its centre [CBSE-AIPMT-2015]4.6.3 Magnetic Field on the axis of a Circular Current Loop [AIIMS-2015]

4.8 THE SOLENOID AND THE TOROID

4.8.1 The solenoid [CBSE-AIPMT-2015]4.8.2 The toroid [AIIMS-2015]

4.9 FORCE BETWEEN TWO PARALLEL CURRENTS, THE AMPERE [AIIMS-2015; CBSE-AIPMT-2015]4.10 TORQUE ON CURRENT LOOP, MAGNETIC DIPOLE [CBSE-AIPMT-2015]

4.10.1 Torque on a rectangular current loop in a uniformmagnetic field [CBSE-AIPMT-2015]Mechanical (Potential) Energy Possessed by a CurrentLoop (or a Tiny Magnet) in an External Magnetic Field [AIIMS-2015]

4.10.2 Circular current loop as a magnetic dipole [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER FIVE MAGNETISM AND MATTER5.1 INTRODUCTION

Magnetic dipole moment [CBSE-AIPMT-2015]5.2 THE BAR MAGNET

5.2.2 Bar magnet as an equivalent solenoid [AIIMS-2015]



Torque and magnetic moment [CBSE-AIPMT-2015]5.2.3 The dipole in a uniform magnetic field

Potential energy of a magnetic dipole in a Magnetic Field [CBSE-AIPMT-2015]5.2.4 The electrostatic analog

Vibration magnetometer (Optional) [CBSE-AIPMT-2015]5.4 THE EARTH’S MAGNETISM

Elements of Earth’s Magnetic Field [AIIMS-2015]5.4.1 Magnetic declination and dip [AIIMS-2015]

5.5 MAGNETISATION AND MAGNETIC INTENSITY [AIIMS-2015]Induced magnetic field also called Magnetization (M)(which is magnetic moment per unit volume) [AIIMS-2015]

5.6 MAGNETIC PROPERTIES OF MATERIALS

5.6.1 Diamagnetism [AIIMS-2015; CBSE-AIPMT-2015]5.6.2 Paramagnetism [CBSE-AIPMT-2015]5.6.3 Ferromagnetism [AIIMS-2015; CBSE-AIPMT-2015]

Curie’s Law [CBSE-AIPMT-2015]5.7 PERMANENT MAGNETS AND ELECTROMAGNETS [CBSE-AIPMT-2015]

CHAPTER SIX ELECTROMAGNETIC INDUCTION6.3 MAGNETIC FLUX [CBSE-AIPMT-2015]6.4 FARADAY’S LAWS OF INDUCTION [CBSE-AIPMT-2015]6.5 LENZ’S LAW AND CONSERVATION OF ENERGY [CBSE-AIPMT-2015]6.7 ENERGY CONSIDERATION : A QUANTITATIVE STUDY

6.7.3 Relation between charge flown through the circuit and change in flux[CBSE-AIPMT-2015]

6.7.4 Methods of generating induced e.m.f. [CBSE-AIPMT-2015]6.7.8 E.M.F. produced in a circular coil rotating about its horizontal

diameter placed in a uniform horizontal magnetic field, horizontaldiameter of the coil being along the magnetic field lines (Optional)

[CBSE-AIPMT-2015]6.8 EDDY CURRENTS [AIIMS-2015]6.9 INDUCTANCE

6.9.1 Mutual Induction [AIIMS-2015]6.9.2 Self Induction [AIIMS-2015; CBSE-AIPMT-2015]



6.12 OSCILLATORY DISCHARGE OF L-C CIRCUIT [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER SEVEN ALTERNATING CURRENT7.5 AC VOLTAGE APPLIED TO AN CAPACITOR

Impedance [AIIMS-2015]Inductive Impedance [CBSE-AIPMT-2015]

7.6 AC VOLTAGE APPLIED TO A SERIES LCR CIRCUIT [AIIMS-2015; CBSE-AIPMT-2015]7.6.3 Resonance [AIIMS-2015]

7.7 POWER IN A.C. CIRCUITS : THE POWER FACTOR [AIIMS-2015; CBSE-AIPMT-2015]RMS Current [CBSE-AIPMT-2015]Power in Series L-C-R Circuit [CBSE-AIPMT-2015]Power Factor [CBSE-AIPMT-2015]

7.8 LC OSCILLATIONS [AIIMS-2015]7.9 TRANSFORMERS [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER EIGHT ELECTROMAGNETIC WAVES8.1 INTRODUCTION [AIIMS-2015]8.3 ELECTROMAGNETIC WAVES

8.3.2 Nature of Electromagnetic Waves [AIIMS-2015; CBSE-AIPMT-2015]Properties of Electromagnetic waves [AIIMS-2015]Energy [CBSE-AIPMT-2015]Equations of e.m. waves and their interpretation [CBSE-AIPMT-2015]

8.4 ELECTROMAGNETIC SPECTRUM

Uses of Electromagnetic Radiation (Wavelengthwise) [CBSE-AIPMT-2015]8.4.1 Radio Waves

Quick and in-depth heating (Microwave Ovens) [CBSE-AIPMT-2015]8.4.2 Microwaves [AIIMS-2015; CBSE-AIPMT-2015]8.4.3 Infrared Waves (Heat Waves) [CBSE-AIPMT-2015]8.4.5 Ultraviolet rays (UV Waves) [AIIMS-2015; CBSE-AIPMT-2015]8.4.6 X-Rays [AIIMS-2015]8.4.7 Gamma Rays [AIIMS-2015; CBSE-AIPMT-2015]

Role of earth’s atmosphere in propagation of radio waves [AIIMS-2015]Frequency modulated (FM) transmissionT.V. Signals [AIIMS-2015]



CHAPTER NINE RAY OPTICS AND OPTICAL INSTRUMENTS

2. REFLECTION AT CURVED SURFACEQuantitative discussion for an axial point object [AIIMS-2015]

3. REFRACTION OF LIGHT AT PLANE SURFACE (S)Refraction of light [AIIMS-2015]Critical Angle of incidence [CBSE-AIPMT-2015]Refraction through a prism placed in air [AIIMS-2015; CBSE-AIPMT-2015]Combination of two inverted thin prisms [CBSE-AIPMT-2015]

5. REFRACTION THROUGH LENS(S)Refraction through a simple lens [AIIMS-2015]Compound lens [CBSE-AIPMT-2015]Combination of two thin spherical lenses [AIIMS-2015]

6. OPTICAL DEFECTS OF MIRRORS & LENSESFor lenses [AIIMS-2015]

7. EYE AND OPTICAL INSTRUMENTSDefects of vision [AIIMS-2015]Microscope [AIIMS-2015]Compound Microscope [AIIMS-2015]Telescopes [AIIMS-2015; CBSE-AIPMT-2015]

CHAPTER TEN WAVE OPTICS10.4 COHERENT AND INCOHERENT ADDITION OF WAVES

Resultant intensity [CBSE-AIPMT-2015]10.5 INTERFERENCE OF LIGHT WAVES AND YOUNG’S EXPERIMENT

Young’s Double Slit Experiment (YDSE) [AIIMS-2015; CBSE-AIPMT-2015]Interference in reflected light [AIIMS-2015]

10.6 DIFFRACTION [AIIMS-2015]10.7 POLARISATION [AIIMS-2015]

CHAPTER ELEVEN DUAL NATURE OF RADIATION AND MATTER11.1 INTRODUCTION

Cathode Rays production [CBSE-PMT-2015]11.2 ELECTRON EMISSION



11.2.1 Physical Processes of Electron EmissionPhotoelectric emission [CBSE-PMT-2015]

11.3 Photoelectric EffectThreshold frequency [CBSE-PMT-2015]

11.4 EXPERIMENTAL STUDY OF PHOTOELECTRIC EFFECT

Photocell [AIIMS-2015]11.4.4 Effect of time

Laws of Photoelectric Emission [CBSE-PMT-2015]Graph between frequency and K.E.max [CBSE-PMT-2015]Graph between intensity I of incident radiation and photocurrent i [CBSE-PMT-2015]Graph between intensity I of incident radiation and stopping potential (–V0)

[AIIMS-2015]11.6 EINSTEIN’S PHOTOELECTRIC EQUATION : ENERGY QUANTUM OF RADIATION [AIIMS-2015; CBSE-PMT-2015]11.7 PARTICLE NATURE OF LIGHT : THE PHOTON [CBSE-PMT-2015]11.8 WAVE NATURE OF MATTER [AIIMS-2015; CBSE-PMT-2015]

de Broglie wavelength associated with uncharged particles [AIIMS-2015]11.9 DAVISSON-GERMER EXPERIMENT [CBSE-PMT-2015]

CHAPTER TWELVE ATOMS12.2 ALPHA-PARTICLE SCATTERING AND RUTHERFORD’S NUCLEARMODEL OF ATOM [CBSE-PMT-2015]12.4 BOHR MODEL OF THE HYDROGEN ATOM [AIIMS-2015]

12.4.1 Energy LevelsIonization Energy (I.E) and Ionization Potential (I.P) [CBSE-PMT-2015]Excitation Energy [CBSE-PMT-2015]Wavelength of photon emitted in de-excitation [CBSE-PMT-2015]

12.5 THE LINE SPECTRUM OF THE HYDROGEN ATOM [AIIMS-2015; CBSE-PMT-2015]12.6 de BROGLIE’S EXPLANATION OF BOHR’S SECOND POSTULATE OF QUANTISATION

X-RAYS [AIIMS-2015]

CHAPTER THIRTEEN NUCLEI13.2 ATOMIC MASSES, COMPOSITION OF NUCLEUS AND SIZE OF NUCLEUS

Nuclear spin and magnetic moment [AIIMS-2015]13.3 SIZE OF THE NUCLEUS [AIIMS-2015; CBSE-PMT-2015]13.4 MASS-ENERGY AND NUCLEAR BINDING ENERGY [AIIMS-2015; CBSE-PMT-2015]



13.4.2 Nuclear Binding EnergyMass defect [CBSE-PMT-2015]

13.6 RADIOACTIVITY

13.6.1 Law of radioactive decayRutherford and Soddy’s law [AIIMS-2015; CBSE-PMT-2015]Half Life [AIIMS-2015; CBSE-PMT-2015]Law of successive radio disintegration and concept ofsecular or permanent equilibrium [CBSE-PMT-2015]Alpha, Beta and Gamma decaySome important consequences of the above discussionmay be summarised as follows [AIIMS-2015; CBSE-PMT-2015]

13.6.2 Alpha decay (-decay) [AIIMS-2015]13.6.3 Beta decay (-decay) [AIIMS-2015]13.6.4 Gamma decay (-decay) [AIIMS-2015]

13.7 NUCLEAR ENERGY

13.7.1 Nuclear Fission [AIIMS-2015]13.7.2 Nuclear Reactor [AIIMS-2015]13.7.3 Nuclear Fusion – energy generation in stars [AIIMS-2015; CBSE-PMT-2015]

CHAPTER FOURTEEN SEMICONDUCTOR ELECTRONICS : MATERIALS,DEVICES AND SIMPLE CIRCUITS

14.2 CLASSIFICATION OF METALS, CONDUCTORS AND SEMICONDUCTORS

Energy bands (case of a solid) [AIIMS-2015]Conduction electrons (also called free electrons) [AIIMS-2015]

14.3 INTRINSIC SEMICONDUCTORS [AIIMS-2015]14.4 EXTRINSIC SEMICONDUCTOR [CBSE-PMT-2015]

Numerical problems on doping [AIIMS-2015; CBSE-PMT-2015]n-type Ge (i.e. doped by P) [CBSE-PMT-2015]Minority Carriers [AIIMS-2015]

14.5 p-n JUNCTION [AIIMS-2015; CBSE-PMT-2015]14.8 SPECIAL PURPOSE P-N JUNCTION DIODES

14.8.1 Zener diode [CBSE-PMT-2015]14.9 JUNCTION TRANSISTOR

14.9.1 Transistor : structure and action [AIIMS-2015]



Amplifier [AIIMS-2015; CBSE-PMT-2015]14.9.3 Transistor as a device [AIIMS-2015]14.9.4 Transistor as an Amplifier [CBSE-PMT-2015]

14.10 DIGITAL ELECTRONICS AND LOGIC GATES

14.10.1 Logic Gates [AIIMS-2015; CBSE-PMT-2015]14.11 INTEGRATED CIRCUITS [CBSE-PMT-2015]

CHAPTER FIFTEEN COMMUNICATION SYSTEM15.3 BASIC TERMINOLOGY USED IN ELECTRONIC COMMUNICATION SYSTEMS [AIIMS-2015]15.4 BANDWITH OF SIGNALS [AIIMS-2015]15.6 PROPAGATION OF ELECTROMAGNETIC WAVES

15.6.1 Ground wave [AIIMS-2015]15.6.2 Sky-wave [AIIMS-2015]15.6.3 Space wave [AIIMS-2015]

15.9 PRODUCTION OF AMPLITUDE MODULATED WAVE [AIIMS-2015]Frequency modulation [AIIMS-2015]

15.11 LASER DIODE [AIIMS-2015]



CLASS XI

CHAPTER WISE IMPORTANT TOPIC FORAIIMS & CBSE-AIPMT - 2015

PHYSICAL CHEMISTRYUNIT 1 SOME BASIC CONCEPTS OF CHEMISTRY

1.5 LAWS OF CHEMICAL COMBINATION

1.5.5 Avogadro Laws [CBSE-AIPMT-2015]

1.8 MOLE CONCEPT AND MOLAR MASSES [AIIMS-2015]

1.9 PERCENTAGE COMPOSITION [CBSE-AIPMT-2015]

1.9.1 Empirical Formulae for Molecular formulae [CBSE-AIPMT-2015]

1.10 STOICHIOMETRY AND STOICHIOMETRIC CALCULATIONS

1.10.1A Equivalent Weight

1.10.1B Limiting Reagent [CBSE-AIPMT-2015]

1.10.2 Reactions in Solutions [CBSE-AIPMT-2015]

UNIT 2 STRUCTURE OF ATOM2.3 DEVLOPMENT LEADING TO THE BOHR’S MODEL OF ATOM

2.3.1 Wave Nature of Electromagnetic Radiation [CBSE-AIPMT-2015]

2.4 BOHR’S MODEL FOR HYDROGEN ATOM [CBSE-AIPMT-2015]

2.4.2 Limitations of Bohr’s Model [CBSE-AIPMT-2015]

2.5 TOWARDS QUANTUM MECHANICAL MODEL OF THE ATOM2.5.1 Dual Behaviour of Matter [CBSE-AIPMT-2015]

2.5.2 Heisenberg’s Uncertainty Principle [CBSE-AIPMT-2015]

2.6 QUANTUM MECHANICAL MODEL OF ATOM



2.6.1 Orbitals and Quantum Numbers [CBSE-AIPMT-2015]

2.6.5 Electronic Configuration of Atoms [CBSE-AIPMT-2015]

UNIT 3 CLASSIFICATION OF ELEMENTS AND

PERIODICITY IN PROPERTIES3.5 ELECTRONIC CONFIGURATIONS OF ELEMENTS AND THE PERIODIC TABLE

[CBSE-AIPMT-2015]

3.6 ELECTRONIC CONFIGURATIONS AND TYPES OF ELEMENTS : S-, P-, D-, F-BLOCKS

3.7 PERIODIC TRENDS IN PROPERTIES OF ELEMENTS

3.7.1 Trends in Physical Properties [CBSE-AIPMT-2015]

3.7.2 Periodic Trends in Chemical Properties [CBSE-AIPMT-2015]

UNIT 4 CHEMICAL BONDING AND

MOLECULAR STRUCTURE4.1 KÖSSEL-LEWIS APPROACH TO CHEMICAL BONDING

4.1.2 Covalent Bond [CBSE-AIPMT-2015]

4.1.3 Lewis Representation of Simple Molecules (the Lewis Structures)

[CBSE-AIPMT-2015]

4.1.4 Formal charge (F.C) [AIIMS-2015]

4.2.1 Lattice Enthalphy or Lattice energy (U) [AIIMS-2015]

4.3 BOND PARAMETERS

4.3.4 Bond Order [CBSE-AIPMT-2015]

4.3.6 Polarity of Bonds [AIIMS-2015; CBSE-AIPMT-2015]

4.4 THE VALENCE SHELL ELECTRON PAIR REPULSION (VSEPR) THEORY [CBSE-AIPMT-2015]

4.5 VALENCE BOND THEORY

4.5.4 Types of Overlapping and Nature of Covalent Bonds [CBSE-AIPMT-2015]



4.6 HYBRIDIZATION

4.6.1 Types of Hybridisation [CBSE-AIPMT-2015]

4.6.2 Others Examples of Sp3, sp2 and sp Hybridisation [AIIMS-2015]

4.6.3 Hybridisation of Element involving d Orbitals [CBSE-AIPMT-2015]

4.7 MOLECULAR ORBITAL THEORY (HUND-MULLIKEN)

4.7.4 Energy Level Diagram for Molecular Orbitals [AIIMS-2015]

4.7.5 Electronic Configuration and Molecular Behaviour [CBSE-AIPMT-2015]

4.8 BONDING IN SOME HOMONUCLEAR DIATOMIC MOLECULES

[Only A-R Type for AIIMS-2015]

UNIT 5 STATES OF MATTER5.1 INTERMOLECULAR FORCES [CBSE-AIPMT-2015]

5.5.1 Boyle's Law (Pressure - Volume Relationship) (1662)[Only A-R Type for AIIMS-2015]

5.6 IDEAL GAS EQUATION [CBSE-AIPMT-2015]5.6.1 Density and Molar Mass of a Gaseous Substance [AIIMS-2015]5.6.2 Dalton's Law of Partial Pressure (1807)

[Only A-R Type for AIIMS-2015; CBSE-AIPMT-2015]

5.6.3 Graham's Law of Effusion/Diffusion (1829) [CBSE-AIPMT-2015]

5.7 KINETIC MOLECULAR MODEL OF GAS [AIIMS-2015; CBSE-AIPMT-2015]

5.8 BEHAVIOUR OF REAL GASES : DEVIATION FROM IDEAL GAS BEHAVIOUR


5.9 LIQUIFICATION OF GASES [AIIMS-2015]

UNIT 6 THERMODYNAMICS6.1 THERMODYNAMIC TERMS [CBSE-AIPMT-2015]

6.1.2 Types of the System [Only A-R type for AIIMS-2015]

6.1.3 The State of the System [AIIMS-2015; CBSE-AIPMT-2015]

6.1.4 The internal Energy as a State Function [CBSE-AIPMT-2015]



6.2 APPLICATIONS [CBSE-AIPMT-2015]6.2.2 Enthalpy, H [AIIMS-2015]

6.4 ENTHALPY CHANGE, rH OF A REACTION-REACTION ENTHALPY [CBSE-AIPMT-2015](b) Enthalpy changes during phase transformations [AIIMS-2015](c) Standard Enthalpy of formation [AIIMS-2015]

6.5 ENTHALPIES FOR DIFFERENT TYPES OF REACTIONS [CBSE-AIPMT-2015]

(c) Bond Enthalpy (Symbol : bondoH ) [AIIMS-2015]

(d) Enthalpy of solution (symbol : soloH ) [Only A-R type for AIIMS-2015]

6.6 SPONTANEITY [AIIMS-2015; CBSE-AIPMT-2015]

6.7 GIBBS ENERGY CHANGE AND EQUILIBRIUM [CBSE-AIPMT-2015]

UNIT 7 EQUILIBRIUM7.3 LAW OF CHEMICAL EQUILIBRIUM AND EQUILIBRIUM CONSTANT


7.4 HOMOGENEOUS EQUILIBRIA [CBSE-AIPMT-2015]

7.7 RELATIONSHIP BETWEEN EQUILIBRIUM CONSTANT K, REACTIONQUOTIENT AND GIBBS ENERGY [AIIMS-2015]

7.8 FACTORS AFFECTING EQUILIBRIUM [Only A-R type for AIIMS-2015]7.8.2 Effect of Pressure Change [Only A-R type for AIIMS-2015]7.11.2 The pH Scale [AIIMS-2015]

7.12 BUFFER SOLUTIONS [Only A-R type for AIIMS-2015]

7.13.1 Solubility Product Constant [AIIMS-2015]7.13.2 Common Ion Effect on Solubility on Ionic Salts [Only A-R type for AIIMS-2015]

CLASS 9 UNIT 8 REDOX REACTIONS8.3 OXIDATION NUMBER [CBSE-AIPMT-2015]

8.3.2 Balancing Redox Reactions [CBSE-AIPMT-2015]





PHYSICAL CHEMISTRYUNIT 1 THE SOLID STATE

1.5 NUMBER OF ATOMS IN A UNIT CELL [CBSE-AIPMT-2015]

1.5.2 Body Centred Cubic Unit Cell [CBSE-AIPMT-2015]

1.5.3 Face Centred Cubic Unit Cell [CBSE-AIPMT-2015]

1.6 CLOSE-PACKED STRUCTURES

1.6.1 Formula of a Compound and Number of Voids Field [CBSE-AIPMT-2015]

1.7 PACKING EFFICIENCY

1.7.2 Efficiency of Packing in Body-centred Cubic Structures [CBSE-AIPMT-2015]

1.7.3 Packing Efficiency in Simple Cubic Lattice [CBSE-AIPMT-2015]

1.8 CALCULATIONS INVOLVING UNIT CELL DIMENSIONS [CBSE-AIPMT-2015]1.10.2. Conduction of Electricity in Semiconductors [AIIMS-2015]

UNIT 2 SOLUTIONS2.1 TYPES OF SOLUTION [CBSE-AIPMT-2015 & 2016]

2.2 EXPRESSING CONCENTRATIONS OF SOLUTIONS [AIIMS-2015]

2.3 SOLUBILITY [AIIMS-2015]

2.3.2 Solubility of a gas in a Liquid [AIIMS-2015]

2.4 VAPOUR PRESSURE OF LIQUID SOLUTIONS [CBSE-AIPMT-2015]

2.4.1 Vapour Pressure of Liquid-Liquid Solutions [AIIMS-2015; CBSE-AIPMT-2015]

2.4.2 Raoult's Law as a special case of Henry's Law [AIIMS-2015]



2.4.3 Vapour Pressure of Solutions of Solids in Liquids [AIIMS-2015]

2.5 IDEAL AND NON-IDEAL SOLUTIONS

2.5.1 Ideal Solution [AIIMS-2015]

2.6 COLLIGATIVE PROPERTIES AND DETERMINATION OF MOLAR MASS [CBSE-AIPMT-2015]

2.6.2 Elevation of Boiling Point [AIIMS-2015]

2.6.3 Depression of Freezing Point [AIIMS-2015; CBSE-AIPMT-2015]

2.6.4 Osmosis and Osmotic Pressure [CBSE-AIPMT-2015]

2.6.4.1 Definition of Osmotic Pressure [CBSE-AIPMT-2015]

2.6.4.2 Theory of dilute solution [CBSE-AIPMT-2015]

2.7 ABNORMAL MOLAR MASSES [CBSE-AIPMT-2015]

UNIT 3 ELECTROCHEMISTRY3.1 ELECTROCHEMICAL CELLS [CBSE-AIPMT-2015]

3.3 NERNST EQUATION [CBSE-AIPMT-2015]

3.3.2 Electrochemical Cell and Gibbs Energy of the Reaction [CBSE-AIPMT-2015]

3.4 CONDUCTANCE OF ELECTROLYTIC SOLUTIONS

3.4.2 Variation of Conductivity and Molar Conductivity with Concentration

[CBSE-AIPMT-2015]

3.5 ELECTROLYTIC CELLS AND ELECTROLYSIS [CBSE-AIPMT-2015]

3.7 FUEL CELLS [CBSE-AIPMT-2015]

UNIT 4 CHEMICAL KINETICS4.1 RATE OF A CHEMICAL REACTION [AIIMS-2015; CBSE-AIPMT-2015]

4.2 FACTORS INFLUENCING RATE OF A REACTION

4.2.1 Dependence of Rate on Concentration [AIIMS-2015]

4.2.2 Rate Expression and Rate Constant [AIIMS-2015]

4.2.3 Order of a Reaction [AIIMS-2015; CBSE-AIPMT-2015]



4.3 INTEGRATED RATE EQUATIONS

4.3.1 Zero Order Reactions [AIIMS-2015]

4.3.2 First Order Reactions [AIIMS-2015; CBSE-AIPMT-2015]

4.3.3 Half-Life of a Reaction [AIIMS-2015; CBSE-AIPMT-2015]

4.4 PSEUDO FIRST ORDER REACTION [AIIMS-2015]

4.5 TEMPERATURE DEPENDENCE OF THE RATE OF A REACTION[AIIMS-2015; CBSE-AIPMT-2015]

4.5.1 Effect of Catalyst [Only A-R Type for AIIMS-2015]

4.6 COLLISION THEORY OF CHEMICAL REACTIONS [Only A-R Type for AIIMS-2015]



CLASS XI


ORGANIC CHEMISTRYUNIT 12 ORGANIC CHEMISTRY – SOME BASIC

PRINCIPLES AND TECHNIQUES12.5 NOMENCLATURE OF ORGANIC COMPOUNDS

Types of Carbon and Hydrogen [AIIMS-2015; CBSE-AIPMT-2015]

Alkyl Group [CBSE-AIPMT-2015]

Seniority table of Functional Group [AIIMS-2015]

Polyhalogen compound [CBSE-AIPMT-2015]

Amines [CBSE-AIPMT-2015]

Alkanone [CBSE-AIPMT-2015]

Nomenclature of Aromatic Compounds [AIIMS-2015; CBSE-AIPMT-2015]

Hydrocarbons (Arenes) [CBSE-AIPMT-2015]

Hybridization vs Bond length [AIIMS-2015; CBSE-AIPMT-2015]

Dipole moment of organic compounds [AIIMS-2015; CBSE-AIPMT-2015]

Hydrogen Bonding [AIIMS-2015; CBSE-AIPMT-2015]

12.6 ISOMERISM

12.6.1 Structural or Constitutional Isomerism [AIIMS-2015]

Chain or Skeleton or Nuclear Isomerism [AIIMS-2015]

Metamerism [AIIMS-2015; CBSE-AIPMT-2015]

Tautomerism [AIIMS-2015; CBSE-AIPMT-2015]

Geometrical isomerism [AIIMS-2015; CBSE-AIPMT-2015]



Optical Isomerism [AIIMS-2015; CBSE-AIPMT-2015]

Chiral Center or Stereogenic Center [AIIMS-2015]

Optical Active [AIIMS-2015]

(R) (S) nomenclature [AIIMS-2015; CBSE-AIPMT-2015]

Optical activity of compound containing two chiral carbon atoms

[CBSE-AIPMT-2015]

12.7 FUNDAMENTAL CONCEPTS IN ORGANIC REACTION MECHANISM

12.7.3 Inductive effect [AIIMS-2015; CBSE-AIPMT-2015]

Stability of Alkyl Carbocation [CBSE-AIPMT-2015]

12.7.4 Hyperconjugation [AIIMS-2015]

Stability of Carbonium ion [CBSE-AIPMT-2015]

12.7.6 Resonance Effect or Mesomeric Effect [AIIMS-2015; CBSE-AIPMT-2015]

Application of mesomeric effect [CBSE-AIPMT-2015]

Deactivating group (meta directing) [CBSE-AIPMT-2015]

12.7.7 Electromeric Effect (E effect)

Aromaticity or Aromatic Character [CBSE-AIPMT-2015]

Non-Benzenoid Aromatic compounds. [AIIMS-2015]

Reaction Intermediate [AIIMS-2015; CBSE-AIPMT-2015]

Carbene [AIIMS-2015]

12.7.8 Types of reagents (Nucleophiles and Electrophiles) [AIIMS-2015]

Nucleophilicity and Basicity [CBSE-AIPMT-2015]

Basic character of amine [CBSE-AIPMT-2015]

Hybridization and Acid Strength [AIIMS-2015; CBSE-AIPMT-2015]

12.7.9 Types of Organic reaction and Mechanism

Substitution or Displacement reaction [CBSE-AIPMT-2015]

SN2 Mechanism or (Substitution nucleophilic bimolecular)[AIIMS-2015; CBSE-AIPMT-2015]

Transition state of SN2 reaction [AIIMS-2015]

Effect of leaving groups [AIIMS-2015]

Solvent effect [AIIMS-2015]



Aromatic substitution Reaction [AIIMS-2015; CBSE-AIPMT-2015]

Halogenation of Benzene [AIIMS-2015]

Nitration [AIIMS-2015]

Addition Elimination Mechanism [AIIMS-2015]

Free radical aromatic substitution [AIIMS-2015]

Avoidance of Markoni Koff’s Rule [AIIMS-2015; CBSE-AIPMT-2015]

Elimination Reaction [AIIMS-2015]

Poisoned catalyst reduction [CBSE-AIPMT-2015]

Some named organic reaction [AIIMS-2015; CBSE-AIPMT-2015]

Kolbe Electrolytic Reaction [AIIMS-2015]

Reimer-tiemann Reaction [AIIMS-2015]

Rosenmund’s Reaction [CBSE-AIPMT-2015]

12.10.2 Nitrogen [CBSE-AIPMT-2015]

UNIT 13 HYDROCARBONS13.2 ALKANES

13.2.3 Properties

Chemical properties [AIIMS-2015; CBSE-AIPMT-2015]

13.3 ALKENES

13.3.5 Properties

Structure and structure base properties [CBSE-AIPMT-2015]

Chemical properties [AIIMS-2015; CBSE-AIPMT-2015]

13.4 ALKYNES

13.4.4 Properties

Structure and structure base properties [CBSE-AIPMT-2015]

13.5 AROMATIC HYDROCARBONS

13.5.4 Preparation of benzene [CBSE-AIPMT-2015]



CLASS XII


ORGANIC CHEMISTRYUNIT 10 HALOALKANES AND HALOARENES

10.2 NOMENCLATURE [CBSE-AIPMT-2015]

10.4 METHODS OF PREPARATION

10.4.1 From Alcohols [AIIMS-2015]

10.4.2 From Hydrocarbons (Alkanes) [AIIMS-2014]

From Alkenes [AIIMS-2015]

10.5 PHYSICAL PROPERTIES

Melting and boiling points [AIIMS-2015]

10.6 CHEMICAL REACTIONS

10.6.1 Reactions of Haloalkanes [AIIMS-2015; CBSE-AIPMT-2015]

Mechanisms of nucleophilic substitution reactions [AIIMS-2015]

Stereochemical aspect of nucleophilic substitution reactions [CBSE-AIPMT-2015]

Reaction with Metals [CBSE-AIPMT-2015]

Halogenation [AIIMS-2015; CBSE-AIPMT-2015]

From diazonium salts [AIIMS-2015]

10.6.2 Reactions of Haloarenes

Electrophilic substitution reactions [AIIMS-2015; CBSE-AIPMT-2015]

Reactions with metals [CBSE-AIPMT-2015]

10.7. POLYHALOGEN COMPOUNDS

10.7.4 Tetrachloromethane (Carbon tetrachloride) [AIIMS-2015; CBSE-AIPMT-2015]

10.7.6 p, p’-Dichlorodiphenyltrichloroethane (DDT) [CBSE-AIPMT-2015]



UNIT 11 ALCOHOLS, PHENOLS AND ETHERS11.1 CLASSIFICATION

11.1.1 Mono, Di, Tri or Polyhydric Compounds [CBSE-AIPMT-2015]

11.2 NOMENCLATURE [AIIMS-2015; CBSE-AIPMT-2015]

Phenols [AIIMS-2015; CBSE-AIPMT-2015]

11.4 GENERAL METHODS OF PREPARING ALCOHOLS

From Alkenes [AIIMS-2015; CBSE-AIPMT-2015]

By the Reduction of Aldehydes and Ketones [AIIMS-2015]

By the Reduction of Carboxylic Acids and Esters[AIIMS-2015; CBSE-AIPMT-2015]

From Grignard Reagents [AIIMS-2015; CBSE-AIPMT-2015]

11.4.3 Physical Properties of Alcohols [AIIMS-2015]

Boiling Point [AIIMS-2015]

11.4.4 Chemical Properties of Alcohols [AIIMS-2015; CBSE-AIPMT-2015]

Reactions of Alcohols Involving C–O Bond Cleavage


Mechanism [CBSE-AIPMT-2015]

Oxidation and Dehydrogenation of Alcohols [AIIMS-2015]

11.5 SOME COMMERCIALLY IMPORTANT ALCOHOLS [AIIMS-2015; CBSE-AIPMT-2015]

Phenols

Methods of Preparation [AIIMS-2015]

Chemical Properties of Phenols

Reactions of the Phenolic (—OH) group [AIIMS-2015]

Substitution reactions in the benzene nucleus


Reimer-Tiemann reaction [CBSE-AIPMT-2015]

Reaction with FeCl3 [AIIMS-2015]

Oxidation : Uses [CBSE-AIPMT-2015]



ETHERS

Methods of preparation [AIIMS-2015]

By Williamson synthesis [AIIMS-2015]

Reaction with acids [CBSE-AIPMT-2015]

UNIT 12 ALDEHYDES, KETONES AND

CARBOXYLIC ACIDSNomenclature of Aldehydes

IUPAC Name : The common and IUPAC names of some aldehydes [CBSE-AIPMT-2015]

General Methods of Preparation of Aldehydes and Ketones

By the oxidation of alcohols [AIIMS-2015; CBSE-AIPMT-2015]

By the dehydrogenation of Alcohols [CBSE-AIPMT-2015]

By the Reduction of Acid Chlorides [CBSE-AIPMT-2015]

From Alkyl Cyanides [CBSE-AIPMT-2015]

CHEMICAL PROPERTIES [AIIMS-2015; CBSE-AIPMT-2015]

Nucleophilic Addition Reactions [AIIMS-2015]

Reactivity of Aldehydes and Ketones [CBSE-AIPMT-2015]

Reduction [CBSE-AIPMT-2015]

Oxidation of Aldehydes [CBSE-AIPMT-2015]

Oxidation by Fehling’s solution [CBSE-AIPMT-2015]

Reactions due to -Hydrogen [AIIMS-2015]

Aldol condensation [AIIMS-2015]

Cannizzaro Reaction [AIIMS-2015]

Clemmensen Reduction [AIIMS-2015]

Other Reactions [AIIMS-2015]

Aromatic Aldehydes [AIIMS-2015]

Chemical Reactions [AIIMS-2015]

Benzoin condensation [AIIMS-2015]



UNIT 27 AMINESNOMENCLATURE

The common and IUPAC names of some arylamines and substituted arylamines

[CBSE-AIPMT-2015]

From Alkyl Halides [AIIMS-2015]

From nitroalkanes [AIIMS-2015]

From alkyl cyanides (alkyl nitriles) [CBSE-AIPMT-2015]

From acid amides [CBSE-AIPMT-2015]

From the Hoffmann Bromoamide Degradation Reaction [AIIMS-2015]

PHYSICAL PROPERTIES

Boiling Point [AIIMS-2015; CBSE-AIPMT-2015]

CHEMICAL PROPERTIES

Basic Character of Amines [CBSE-AIPMT-2015]

The pKb values of some amines [AIIMS-2015; CBSE-AIPMT-2015]

Alkylation [AIIMS-2015]

Acylation [AIIMS-2015]

Reaction with Grignard Reagent [AIIMS-2015]

Reaction with Nitrous Acid [CBSE-AIPMT-2015]

Nitration [AIIMS-2015]

BENZENEDIAZONIUM SALTS [AIIMS-2015; CBSE-AIPMT-2015]

Stability of Diazonium Salts [CBSE-AIPMT-2015]

Chemical Reactions

Substitution of the Diazonium Group [AIIMS-2015]

Coupling reaction [AIIMS-2015]

UNIT 14 BIOMOLECULESCLASSIFICATION AND NOMENCLATURE

Monosaccharides

Structure [AIIMS-2015; CBSE-AIPMT-2015]



PROTEINS [CBSE-AIPMT-2015]

Amino Acids (The Building Blocks of Proteins)

The most common naturally occurring amino acids [CBSE-AIPMT-2015]

Denaturation of Proteins

Enzymes [AIIMS-2015; CBSE-AIPMT-2015]

VITAMINS [CBSE-AIPMT-2015]

NUCLEIC ACIDS [AIIMS-2015; CBSE-AIPMT-2015]

DNA Fingerprinting [AIIMS-2015; CBSE-AIPMT-2015]

UNIT 29 POLYMERSNeoprene [AIIMS-2015; CBSE-AIPMT-2015]

Polyamides (nylons) [AIIMS-2015; CBSE-AIPMT-2015]

Melamine-formaldehyde plastic [CBSE-AIPMT-2015]

Biodegradable Polymers

Poly (-hydroxybutarate--hydroxyvalerate), PHBV [CBSE-AIPMT-2015]

Nylon 2-nylon 6 [AIIMS-2015; CBSE-AIPMT-2015]

UNIT 16 CHEMISTRY OF EVERYDAY LIFENeoprene [CBSE-AIPMT-2015]

Types of Drugs

Some antihistaminic drugs and their brand names [AIIMS-2015; CBSE-AIPMT-2015]

Antmicrobials [AIIMS-2015]

Neurologically Active Drugs

Antiseptics and disinfectants [CBSE-AIPMT-2015]

Detergents

Classification of detergents [CBSE-AIPMT-2015]

Cleansing Action of Soaps and Detergents [AIIMS-2015; CBSE-AIPMT-2015]



CLASS XI


INORGANIC CHEMISTRY

UNIT 10 THE s-BLOCK ELEMENTS10.1 GROUP 1 ELEMENTS : ALKALI METALS [CBSE-AIPMT-2015]

10.1.6 Chemical Properties [AIIMS-2015; CBSE-AIPMT-2015]

10.2 GENERAL CHARACTERISTICS OF THE COMPOUNDS OF THE ALKALI METALS

[AIIMS-2015]

10.6 GROUP 2 ELEMENTS : ALKALINE EARTH METALS

10.6.6 Chemical Properties [AIIMS-2015; CBSE-AIPMT-2015]

CLASS XI UNIT 11 & CLASS XII UNIT 21THE p-BLOCK ELEMENTS

11.7 ALLOTROPES OF CARBON

11.7.2 Graphite [AIIMS-2015; CBSE-AIPMT-2015]

11.7.3 Fullurenes [CBSE-AIPMT-2015]

11.8 SOME IMPORTANT COMPOUNDS OF CARBON AND SILICON

11.8.4 Silicones [AIIMS-2015]

11.8.5 Silicates [AIIMS-2015; CBSE-AIPMT-2015]



CLASS XII


INORGANIC CHEMISTRYUNIT 7 THE p-BLOCK ELEMENTS

7.1 GROUP 15 ELEMENTS : THE NITROGEN FAMILY

7.1.7 Chemical Properties [AIIMS-2015]

7.3 AMMONIA [AIIMS-2015]

7.8 PHOSPHORUS HALIDES

7.8.1 Phosphorus Trichloride [AIIMS-2015]

7.9 OXOACIDS OF PHOSPHORUS [AIIMS-2015]

7.10 GROUP 16 ELEMENTS : OXYGEN FAMILY

7.10.8 Chemical Properties [AIIMS-2015]

7.14 SULPHUR ALOTROPIC FORMS [AIIMS-2015]

7.15 SULPHUR DIOXIDE

Chemical Properties

7.18 GROUP 17 ELEMENTS : HALOGEN FAMILY

7.18.8 Chemical Properties

7.21 OXOACIDS OF HALOGEN [AIIMS-2015]

7.23 GROUP 18 ELEMENTS : NOBLE GAS

Chemical Properties [AIIMS-2015]

UNIT 6 GENERAL PRINCIPLES AND

PROCESSES OF ISOLATION OF ELEMENTS6.1 OCCURRENCE OF METALS [CBSE-AIPMT-2015]



6.2 CONCENTRATION OF ORES

6.2.5 Extraction of metal from concentrated ore [CBSE-AIPMT-2015]

6.3 EXTRACTION OF CRUDE METAL FROM CONCENTRATED Ore [AIIMS-2015]

UNIT 8 THE d & f-BLOCK ELEMENTS8.1 POSITION IN THE PERIODIC TABLE [CBSE-AIPMT-2015]

8.2 ELECTRONIC CONFIGURATIONS OF THE d-BLOCK ELEMENTS[AIIMS-2015; CBSE-AIPMT-2015]

8.3 GENERAL PROPERTIES OF THE TRANSITION ELEMENTS (d-BLOCK) [CBSE-AIPMT-2015]

8.3.4 Oxidation States [CBSE-AIPMT-2015]

8.3.10 Formation of Coloured Ions [AIIMS-2015; CBSE-AIPMT-2015]

Coloured ion formation [CBSE-AIPMT-2015]

8.3.14 Alloy Formation [AIIMS-2015]

8.4 SOME IMPORTANT COMPOUNDS OF TRANSITION ELEMENTS[AIIMS-2015; CBSE-AIPMT-2015]

KMnO4 [CBSE-AIPMT-2015]

8.5 THE LANTHANOIDS [CBSE-AIPMT-2015]

8.6 THE ACTINOIDS [AIIMS-2015]

UNIT 9 COORDINATION COMPOUNDS9.2 DEFINITION OF SOME IMPORTANT TERMS PERTAINING TO COORDINATION

COMPOUND [AIIMS-2015]

9.4 ISOMERISM IN COORDINATION COMPOUNDS [CBSE-AIPMT-2015]

9.4.3 LINKAGE ISOMERISM [AIIMS-2015]

9.5 BONDING IN COORDINATION COMPOUNDS

9.5.1 Valence bond theory (V.B.T.) [CBSE-AIPMT-2015]

9.5.2 Magnetic Properties of Coordination Compounds [CBSE-AIPMT-2015]

9.5.4 Crystal Field Theory (C.F.T.) [AIIMS-2015; CBSE-AIPMT-2015]





UNIT 1 DIVERSITY IN THE LIVING WORLD

Chapter 1. THE LIVING WORLD

1.1 What is ‘Living’? [AIIMS-2015]

1.2 Diversity in the Living World [AIIMS-2015; CBSE-AIPMT-2015]

1.3 Taxtnomic Categories [AIIMS-2015]

1.3.1 Species [CBSE-AIPMT-2015]

1.3.2 Genus [AIIMS-2015; CBSE-AIPMT-2015]

1.3.6 Phylum (Division)

1.3.7 Kingdom

1.4 Taxonomical aids

1.4.3 Museums [CBSE-AIPMT-2015]

Chapter 2. BIOLOGICAL CLASSIFICATION

Systems of biological classification [AIIMS-2015; CBSE-AIPMT-2015]

2.1 Kingdom Monera [AIIMS-2015; CBSE-AIPMT-2015]

2.1.1 Archaebacteria [AIIMS-2015; CBSE-AIPMT-2015]

2.1.2 Eubacteria [AIIMS-2015; CBSE-AIPMT-2015]

2.2 Kingdom Protista [AIIMS-2015]

2.2.1 Chrysophytes [AIIMS-2015]

2.2.4 Slime Moulds [AIIMS-2015; CBSE-AIPMT-2015]

2.2.5 Protozoans [AIIMS-2015; CBSE-AIPMT-2015]

2.3 Kingdom Fungi [AIIMS-2015; CBSE-AIPMT-2015]

2.3.2 Ascomycetes [AIIMS-2015; CBSE-AIPMT-2015]



2.3.4 Deuteromycetes [AIIMS-2015; CBSE-AIPMT-2015]

2.5 Kingdom Animalia [AIIMS-2015; CBSE-AIPMT-2015]

2.6 Viruses, Viroids and Lichens [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 3. PLANT KINGDOM3.1 Algae [AIIMS-2015; CBSE-AIPMT-2015]

3.1.1 Chlorophyceae [AIIMS-2015; CBSE-AIPMT-2015]3.1.2 Phaeophyceae [CBSE-AIPMT-2015]3.1.3 Rhodophyceae [AIIMS-2015]

3.2 Bryophytes (Bryon=Moss+Phyton=plant) [CBSE-AIPMT-2015]3.2.1 Liverworts [AIIMS-2015; CBSE-AIPMT-2015]3.2.2 Mosses [AIIMS-2015; CBSE-AIPMT-2015]

3.3 Pteriodophyta (Seedless vascular plant) [AIIMS-2015; CBSE-AIPMT-2015]3.4 Gymnosperms [AIIMS-2015; CBSE-AIPMT-2015]3.5 Angiosperms [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 4. ANIMAL KINGDOM

4.2 Classification of Animals [CBSE-AIPMT-2015]4.2.1 Phylum-Porifera (pore bearing animals) [AIIMS-2015]4.2.2 Phylum – Coelenterata (Cnidraia) [AIIMS-2015; CBSE-AIPMT-2015]4.2.4 Phylum-Platyhelminthes (Flatworms) [AIIMS-2015; CBSE-AIPMT-2015]4.2.5 Phylum – Aschelminthes [CBSE-AIPMT-2015]4.2.6 Phylum Annelida [AIIMS-2015; CBSE-AIPMT-2015]4.2.7 Phylum Arthropoda (Animals with jointed appendages)

[AIIMS-2015; CBSE-AIPMT-2015]4.2.11 Phylum – Chordata [AIIMS-2015; CBSE-AIPMT-2015]4.2.11.1 Class – Cyclostomata [CBSE-AIPMT-2015]4.2.11.2 Class – Chondrichthyes or Elasmobranchi [CBSE-AIPMT-2015]4.2.11.3 Class –Osteoicthyes or Teleostomi [AIIMS-2015]4.2.11.4 Class – Amphibia [CBSE-AIPMT-2015]4.2.11.6 Class – Aves [AIIMS-2015; CBSE-AIPMT-2015]4.2.11.7 Class – Mammalia [AIIMS-2015; CBSE-AIPMT-2015]



UNIT II STRUCTURAL ORGANISATION IN PLANTS AND ANIMALS

Chapter 5. MORPHOLOGY OF FLOWERING PLANTS

5.1 THE ROOT [AIIMS-2015; CBSE-AIPMT-2015]5.1.2 MODIFICATION OF ROOT [CBSE-AIPMT-2015]

5.2 THE STEM [AIIMS-2015; CBSE-AIPMT-2015]5.2.1 MODIFICATIONS OF STEM [CBSE-AIPMT-2015]

5.3 THE LEAF [AIIMS-2015]5.3.1 VENATION [CBSE-AIPMT-2015]5.3.3 PHYLLOTAXY [CBSE-AIPMT-2015]5.3.4 MODIFICATIONS OF LEAVES [CBSE-AIPMT-2015]

5.4 THE INFLORESCENCE [CBSE-AIPMT-2015]5.5 THE FLOWER [AIIMS-2015; CBSE-AIPMT-2015]

5.5.1.2 COROLLA [AIIMS-2015; CBSE-AIPMT-2015]5.6 THE FRUIT [AIIMS-2015; CBSE-AIPMT-2015]5.7 THE SEED [AIIMS-2015; CBSE-AIPMT-2015]

5.7.1 STRUCTURE OF A DICOTYLEDONOUS SEED [CBSE-AIPMT-2015]5.9 DESCRIPTION OF SOME IMPORTANT FAMILIES [AIIMS-2015; CBSE-AIPMT-2015]

5.9.1 FABACEAE [AIIMS-2015; CBSE-AIPMT-2015]5.9.4 BRASSICACEAE [AIIMS-2015]5.9.5 ASTERACEAE [AIIMS-2015]

Chapter 6. ANATOMY OF FLOWERING PLANTS6.1 THE TISSUES

6.1.2 PERMANENT TISSUES [AIIMS-2015; CBSE-AIPMT-2015]6.1.2.1 SIMPLE TISSUES [AIIMS-2015; CBSE-AIPMT-2015]6.1.2.2 COMPLEX TISSUE [CBSE-AIPMT-2015]

6.2 THE TISSUE SYSTEM6.2.1 EPIDERMAL TISSUE SYSTEM [CBSE-AIPMT-2015]6.2.3 THE VASCULAR TISSUE SYSTEM [AIIMS-2015; CBSE-AIPMT-2015]

6.3 ANATOMY OF DICOTYLEDONOUS AND MONOCOTYLEDONOUS PLANT6.3.1 DICOTYLEDONOUS ROOT [CBSE-AIPMT-2015]

6.4 SECONDARY GROWTH [CBSE-AIPMT-2015]



6.4.1 VASCULAR CAMBIUM [CBSE-AIPMT-2015]6.4.1.1 FORMATION OF CAMBIAL RING [CBSE-AIPMT-2015]6.4.1.3 SPRING WOOD AND AUTUMN WOOD [AIIMS-2015; CBSE-AIPMT-2015]6.4.1.4 HEARTWOOD AND SAPWOOD [CBSE-AIPMT-2015]

6.4.2 CORK CAMBIUM [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 7 : STRUCTURAL ORGANISATION IN ANIMALS

7.1 ANIMAL TISSUES

7.1.1 EPITHELIAL TISSUE [AIIMS-2015; CBSE-AIPMT-2015]

7.1.2 CONNECTIVE TISSUE [AIIMS-2015; CBSE-AIPMT-2015]

7.1.3 MUSCLE TISSUE [AIIMS-2015; CBSE-AIPMT-2015]

7.1.4 NEURAL TISSUE [AIIMS-2015]

7.3 EARTHWORM

7.3.1 MORPHOLOGY [AIIMS-2015; CBSE-AIPMT-2015]

7.3.2 ANATOMY [CBSE-AIPMT-2015]

7.4 COCKROACH


7.4.2 ANATOMY [CBSE-AIPMT-2015]

7.5 FROGS


7.5.2 ANATOMY [AIIMS-2015; CBSE-AIPMT-2015]

UNIT III STRUCTURAL FUNCTIONS

Chapter 8. CELL : THE UNIT OF LIFE

8.1 What is Cell [AIIMS-2015]

8.2 Cell Theory [AIIMS-2015]

8.3 An Overview of Cell [CBSE-AIPMT-2015]

8.4 Prokaryotic Cell [CBSE-AIPMT-2015]

8.4.1 Cell Envelope and its Modifications [AIIMS-2015; CBSE-AIPMT-2015]

8.4.2 Ribosomes and Inclusion Bodies [CBSE-AIPMT-2015]



8.5 Eukaryotic Cells [AIIMS-2015; CBSE-AIPMT-2015]

8.5.1 Cell Membrane [AIIMS-2015; CBSE-AIPMT-2015]

8.5.2 Cell Wall [CBSE-AIPMT-2015]

8.5.3.1 Endoplasmic Reticulum (ER) [CBSE-AIPMT-2015]

8.5.3.2 Golgi Apparatus [CBSE-AIPMT-2015]

8.5.3.4 Vacuoles [CBSE-AIPMT-2015]

8.5.4 Mitochondria [AIIMS-2015; CBSE-AIPMT-2015]

8.5.5 Plastids [AIIMS-2015; CBSE-AIPMT-2015]

8.5.6 Ribosome [CBSE-AIPMT-2015]

8.5.7 Cytoskeleton [AIIMS-2015; CBSE-AIPMT-2015]

8.5 .8 Cilia and Flagella [CBSE-AIPMT-2015]

8.5.10 Nucleus [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 9. BIOMOLECULES

9.1 How to Analyse Chemical Composition ? [AIIMS-2015; CBSE-AIPMT-2015]

9.2 Hrimary and Secondary Metabolites [AIIMS-2015]

9.4 Proteins [AIIMS-2015; CBSE-AIPMT-2015]

9.5 Polysaccharides [AIIMS-2015; CBSE-AIPMT-2015]

9.6 nucleic acids [AIIMS-2015; CBSE-AIPMT-2015]

9.7 Structure of Proteins [AIIMS-2015; CBSE-AIPMT-2015]

9.8 Nature of Bond Linking Monomers in a Polymer [Only AIIMS]

9.12 Enzymes [AIIMS-2015; CBSE-AIPMT-2015]

9.12.2 How do Enzymes bring about such High rates of Chemical Conversions

[AIIMS-2015; CBSE-AIPMT-2015]9.12.3 Nature of Enzyme Action [CBSE-AIPMT-2015 ]

9.12.4 Factors Affecting Enzyme Activity [AIIMS-2015]

9.12.5 Classification and Nomenclature of Enzymes [AIIMS-2015]

9.12.6 Co-factors [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 10. CELL CYCLE AND CELL DIVISION

10.1 Cell Cycle

10.1.1 Phases of Cell Cycle [AIIMS-2015]



10.2 M Phase (Mitotic Phase) or Division Phase [AIIMS-2015]

10.2.2 Metaphase/Post Metaphase [AIIMS-2015; CBSE-AIPMT-2015]

10.2.4 Telophase [CBSE-AIPMT-2015]

10.4 Meiosis [AIIMS-2015; CBSE-AIPMT-2015]

10.4.1 Meiosis I (Division I) [AIIMS-2015; CBSE-AIPMT-2015]

10.4.2 Meiosis II (Division II) [AIIMS-2015]

UNIT IV PLANT PHYSIOLOGYChapter 11. TRANSPORT IN PLANTS

11.1 Means of Transport11.1.2 Facilitated Diffusion [CBSE-AIPMT-2015]

11.2 Plant-Water Relation [AIIMS-2015]11.2.1 Water Potential [AIIMS-2015]11.2.2 Osmosis [CBSE-AIPMT-2015]

11.3 Long Distance Transport of Water11.3.1 How do Plants Absorb Water? [CBSE-AIPMT-2015]

11.3.2.2 Transpiration Pull [CBSE-AIPMT-2015]11.4 Transpiration [AIIMS-2015; CBSE-AIPMT-2015]11.6 Phloem Transport : Flow from Source to Sink [AIIMS-2015]

Chapter 12. MINERAL NUTRITION12.2 Essential Mineral Elements

12.2.2 Role of Macro- and Micro-Nutrients [AIIMS-2015; CBSE-AIPMT-2015]12.6 Metabolism of Nitrogen

12.6.2 Biological Nitrogen Fixation [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 13. PHOTOSYNTHESIS IN HIGHER PLANTS13.1 What do we know? [CBSE-AIPMT-2015]13.2 Early Experiments [CBSE-AIPMT-2015]13.6 The Electron Transport [AIIMS-2015]

13.6.1 Splitting of Water [CBSE-AIPMT-2015]13.6.2 Cyclic and Non-cyclic Photophosphorylation [AIIMS-2015; CBSE-AIPMT-2015]



13.7 Where are the ATP and NADPH used?13.7.1 The Primary Acceptor of CO2 [AIIMS-2015]

13.8 The C4 Pathway [AIIMS-2015; CBSE-AIPMT-2015]13.9 Photorespiration [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 14. RESPIRATION IN PLANTS14.2 Glycolysis [AIIMS-2015; CBSE-AIPMT-2015]

14.3 Fermentation [CBSE-AIPMT-2015]14.4 Aerobic Respiration [AIIMS-2015; CBSE-AIPMT-2015]

14.4.1 Tricarboxylic Acid Cycle [AIIMS-2015]14.4.2 Electron Transport System (ETS) and Oxidative Phosphorylation [AIIMS-2015]

14.5 The Respiratory Balance Sheet [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 15. PLANT GROWTH AND DEVELOPMENT15.1 Growth

15.1.2 Growth is Measurable [AIIMS-2015]15.1.4 Growth Rates [AIIMS-2015]

15.4 Plant Growth Regulators [AIIMS-2015]

15.4.2 The Discovery of Plant Growth Regulators [CBSE-AIPMT-2015]15.4.3 Physiological Effects of Plant Growth Regulators [AIIMS-2015; CBSE-AIPMT-2015]

15.4.3.1 Auxins [AIIMS-2015; CBSE-AIPMT-2015]15.4.3.2 Gibberellins [AIIMS-2015]15.4.3.3 Cytokinins [AIIMS-2015; CBSE-AIPMT-2015]15.4.3.5 Abscisic Acid [AIIMS-2015; CBSE-AIPMT-2015]

15.5 Photoperiodism [AIIMS-2015; CBSE-AIPMT-2015]15.6 Vernalisation [AIIMS-2015; CBSE-AIPMT-2015]

UNIT V HUMAN PHYSIOLOGY

Chapter 16. DIGESTION AND ABSORPTION16.1 Digestive system [CBSE-AIPMT-2015]

16.1.1 Alimentary Canal [AIIMS-2015; CBSE-AIPMT-2015]16.1.2 Digestive Glands [AIIMS-2015; CBSE-AIPMT-2015]



16.2 Digestion of Food [AIIMS-2015; CBSE-AIPMT-2015]16.3 Absorption of Digested Products [AIIMS-2015; CBSE-AIPMT-2015]16.4 Disorders of Digestive System [AIIMS-2015; CBSE-AIPMT-2015]16.5 Vitamin [AIIMS-2015]

Chapter 17. BREATHING AND EXCHANGE OF GASES17.1 Respiratory Organs [AIIMS-2015]

17.1.1 Human Respiratory System [CBSE-AIPMT-2015]17.2 Mechanism of Breathing [AIIMS-204]

17.2.1 Respiratory Volumes and Capacities [AIIMS-2015; CBSE-AIPMT-2015]17.3 EXCHANGE OF GASES [CBSE-AIPMT-2015 ]

17.4 TRANSPORT OF GASES [AIIMS-2015]

17.4.1 TRANSPORT OF OXYGEN [AIIMS-2015]

17.4.2 TRANSPORT OF CARBON DIOXIDE [AIIMS-2015; CBSE-AIPMT-2015]

17.5 Regulation of Respiration [AIIMS-2015; CBSE-AIPMT-2015]

17.6 Disorders of Respiratory System [AIIMS-2015]

Chapter 18. BODY FLUIDS AND CIRCULATION

18.1 Blood [AIIMS-2015]

18.1.2 Formed Elements [CBSE-AIPMT-2015]

18.1.3 Blood Groups [CBSE-AIPMT-2015]

18.1.3.1 ABO Grouping [CBSE-AIPMT-2015]18.1.3.2 Rh Grouping [CBSE-AIPMT-2015]

18.1.4 COAGULATION OF BLOOD [CBSE-AIPMT-2015]

18.2 LYMPH (TISSUE FLUID) [CBSE-AIPMT-2015]

18.3 Circulatory Pathways

18.3.1 Human Circulatory System [AIIMS-2015; CBSE-AIPMT-2015]

18.3.2 Cardiac Cycle [AIIMS-2015]

18.3.3 Electrocardiograph (ECG) [AIIMS-2015; CBSE-AIPMT-2015]

18.4 Double Circulation [CBSE-AIPMT-2015]

18.6 Disorders of Circulatory System [AIIMS-2015]



Chapter 19. EXCRETORY PRODUCTS AND THEIR ELIMINATION

19.1 Human Excretory System [AIIMS-2015; CBSE-AIPMT-2015]

19.2 Urine Formation [CBSE-AIPMT-2015]

19.3 Function of the Tubules [AIIMS-2015]

19.4 Mechanism of Concentration of the Filtrate [CBSE-AIPMT-2015]

19.5 Regulation of Kidney Function [AIIMS-2015]

19.6 MICTURITION [AIIMS-2015]

19.7 ROLE OF OTHER ORGANS IN EXCRETION [AIIMS-2015; CBSE-AIPMT-2015]

19.8 DISORDERS OF THE EXCRETORY SYSTEM [CBSE-AIPMT-2015]

Chapter 20. LOCOMOTION AND MOVEMENT

20.2 Muscle [CBSE-AIPMT-2015]

20.2.1 STRUCTURE OF CONTRACTILE PROTEINS [AIIMS-2015; CBSE-AIPMT-2015]

20.2.2 Mechanism of Muscle Contraction [AIIMS-2015; CBSE-AIPMT-2015]

20.3 Skeletal System [AIIMS-2015]

20.4 Joints [CBSE-AIPMT-2015]

20.5 Disorders of Muscular and Skeletal System [CBSE-AIPMT-2015]

Chapter 21. NEURAL CONTROL AND COORDINATION

21.1 Neural System [AIIMS-2015 & 2016]

21.2 Human Neural System [AIIMS-2015; CBSE-AIPMT-2015]

21.3 Neuron as Structural and Functional Unit of Neural System [CBSE-AIPMT-2015]

21.3.1 Generation and Conduction of Nerve Impulse [AIIMS-2015]

21.3.2 Transmission of Impulses [CBSE-AIPMT-2015]

21.4 Central Neural System

21.4.1 Forebrain [CBSE-AIPMT-2015]

21.4.3 Hindbrain [AIIMS-2015; CBSE-AIPMT-2015]

21.4.4 Peripheral neural system [AIIMS-2015; CBSE-AIPMT-2015]

21.4.5 Autonomous neural system [AIIMS-2015; CBSE-AIPMT-2015]



21.5 REPLEX ACTION AND REFLEX ARC [AIIMS-2015; CBSE-AIPMT-2015]

21.6 SENSORY RECEPTION AND PROCESSING [AIIMS-2015; CBSE-AIPMT-2015]

21.6.1 Eye [CBSE-AIPMT-2015]

21.6.1.1 PARTS OF AN EYE [AIIMS-2015]

21.6.2 The Ear [AIIMS-2015; CBSE-AIPMT-2015]

21.6.2.1 MECHANISM OF HEARING [CBSE-AIPMT-2015]

Chapter 22. CHEMICAL COORDINATION AND INTEGRATION

22.1 Endocrine Glands and Hormones [CBSE-AIPMT-2015]

22.2 Human Endocrine System

22.2.1 The Hypothalamus [AIIMS-2015]

22.2.2 The Pituitary Gland [AIIMS-2015; CBSE-AIPMT-2015]

22.2.3 The Pineal Gland [AIIMS-2015]

22.2.4 Thyroid Gland [CBSE-AIPMT-2015]

22.2.5 Parathyroid Gland [CBSE-AIPMT-2015]

22.2.7 Adrenal Gland [AIIMS-2015; CBSE-AIPMT-2015]

22.2.8 Pancreas [AIIMS-2015; CBSE-AIPMT-2015]

22.2.9 Testis [AIIMS-2015; CBSE-AIPMT-2015]

22.2.10 Ovary [AIIMS-2015; CBSE-AIPMT-2015]

22.3 Hormones of Heart, Kidney, Gastrointestinal Tract and Placenta [CBSE-AIPMT-2015]

22.4 Mechanism of Hormone Action [CBSE-AIPMT-2015]





UNIT VI REPRODUCTIONChapter 1. REPRODUCTION IN ORGANISMS

1.1 Asexual Reproduction [CBSE-AIPMT-2015]1.2 Sexual Reproduction [CBSE-AIPMT-2015]

1.2.1.1 Gametogenesis [CBSE-AIPMT-2015]1.2.2 Fertilization [CBSE-AIPMT-2015]1.2.3 Post-Fertilisation Events

1.2.3.2 Embryogenesis [CBSE-AIPMT-2015]

Chapter 2. SEXUAL REPRODUCTION IN FLOWERING PLANTS2.1 Flower-A Fascinating Organ or Angiosperms [AIIMS-2015]2.2 Pre-fertilisation : Structures and Events [CBSE-AIPMT-2015]

2.2.1 Stamen, Microsporangium and Pollen Grain [CBSE-AIPMT-2015]2.2.2 The Pistil, Megasporangium (ovule) and Embryo sac

[AIIMS-2015; CBSE-AIPMT-2015]2.2.3 Pollination [AIIMS-2015; CBSE-AIPMT-2015]

2.4 Post Fertilisation [AIIMS-2015]2.4.1 Endosperm [CBSE-AIPMT-2015]2.4.2 Embryo [CBSE-AIPMT-2015]2.4.3 Seed [CBSE-AIPMT-2015]

2.5 Apomixis and Polyembryony [CBSE-AIPMT-2015]

Chapter 3. HUMAN REPRODUCTION

3.1 The Male Reproductive System [AIIMS-2015; CBSE-AIPMT-2015]

3.2 The Female reproductive system [AIIMS-2015; CBSE-AIPMT-2015]



3.3 Gametogenesis [AIIMS-2015; CBSE-AIPMT-2015]

3.4 Menstrual Cycle or Ovarian Cycle [AIIMS-2015; CBSE-AIPMT-2015]

3.5 Fertilisation and Implantation [AIIMS-2015; CBSE-AIPMT-2015]

3.6 Pregnancy and Embryonic Development [AIIMS-2015; CBSE-AIPMT-2015]

3.7 Parturition and Lactation [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 4. REPRODUCTIVE HEALTH

4.1 REPRODUCTIVE HEALTH - PROBLEMS AND STRATEGIES [CBSE-AIPMT-2015]

4.2 POPULATION EXPLOSION AND BIRTH CONTROL [CBSE-AIPMT-2015]

4.3 MEDICAL TERMINATION OF PREGNANCY (MTP) OR INDUCED

ABORTION [CBSE-AIPMT-2015]

4.5 INFERTILITY [CBSE-AIPMT-2015]

UNIT VII GENETICS AND EVOLUTION

Chapter 5. PRINCIPLES OF INHERITANCE AND VARIATION

5.1 MENDEL’S LAWS OF INHERITANCE [AIIMS-2015; CBSE-AIPMT-2015]

5.2 INHERITENCE OF ONE GENE [AIIMS-2015]

5.2.1 LAW OF DOMINANCE [CBSE-AIPMT-2015]

5.2.2 LAW OF SEGREGATION [CBSE-AIPMT-2015]

5.2.2.2 CO-DOMINANCE [CBSE-AIPMT-2015]

5.3 INHERITANCE OF TWO GENES

5.3.1 LAW OF INDEPENDENT ASSORTMENT [AIIMS-2015]

5.3.3 LINKAGE AND RECOMBINATION [AIIMS-2015; CBSE-AIPMT-2015]

5.4 SEX DETERMINATION [AIIMS-2015; CBSE-AIPMT-2015]

5.4.1 SEX DETERMINATION IN HUMAN [AIIMS-2015; CBSE-AIPMT-2015]

5.5 MUTATION [AIIMS-2015; CBSE-AIPMT-2015]



5.6 GENETIC DISORDERS [AIIMS-2015; CBSE-AIPMT-2015]5.6.2 MENDELIAN DISORDERS [AIIMS-2015; CBSE-AIPMT-2015]

5.6.3 CHROMOSOMAL DISORDERS [CBSE-AIPMT-2015]

Chpater 6. MOLECULAR BASIS OF INHERITANCE6.2 THE SEARCH FOR GENETIC MATERIAL

6.2.1 THE GENETIC MATERIAL IS DNA [AIIMS-2015; CBSE-AIPMT-2015]

6.2.2 PROPERTIES OF GENETIC MATERIAL (DNA VERSUS RNA) [CBSE-AIPMT-2015]6.3 RNA WORLD [CBSE-AIPMT-2015]

6.4 REPLICATION [AIIMS-2015]

6.5 TRANSCRIPTION

6.5.1 TRANSCRIPTION UNIT [CBSE-AIPMT-2015]6.5.2 TRANSCRIPTION UNIT AND THE GENE [CBSE-AIPMT-2015]

6.6 GENETIC CODE [AIIMS-2015; CBSE-AIPMT-2015]

6.6.1 MUTATIONS AND GENETIC CODE [CBSE-AIPMT-2015]

6.7 TRANSLATION [CBSE-AIPMT-2015]6.8 REGULATION OF GENE EXPRESSION [AIIMS-2015]

6.8.1 THE LAC OPERON [CBSE-AIPMT-2015]

6.9 HUMAN GENOME PROJECT

6.9.2 APPLICATIONS AND FUTURE CHALLENGES [AIIMS-2015; CBSE-AIPMT-2015]6.10 DNA FINGERPRINTING [AIIMS-2015]

Chapter 7. EVOLUTION7.1 ORIGIN OF LIFE [AIIMS-2015; CBSE-AIPMT-2015]

7.2 EVOLUTION OF LIFE FORMS - A THEORY [AIIMS-2015]

7.3 WHAT ARE THE EVIDENCES FOR EVOLUTION [AIIMS-2015; CBSE-AIPMT-2015]

7.4 WHAT IS ADAPTIVE RADIATION [AIIMS-2015; CBSE-AIPMT-2015]7.5 BIOLOGICAL EVOLUTION [CBSE-AIPMT-2015]

7.6 MECHANISM OF EVOLUTION [AIIMS-2015]

7.7 HARDY-WEINBERG PRINCIPLE [CBSE-AIPMT-2015]

7.8 A BRIEF ACCOUNT OF EVOLUTION [CBSE-AIPMT-2015]

7.9 ORIGIN AND EVOLUTION OF MAN [AIIMS-2015; CBSE-AIPMT-2015]



UNIT VIII BIOLOGY IN HUMAN WELFARE

Chapter 8. HUMAN HEALTH AND DISEASE

8.1 COMMON DISEASES IN HUMANS [AIIMS-2015; CBSE-AIPMT-2015]

8.2 IMMUNITY

8.2.1 INNATE IMMUNITY [AIIMS-2015; CBSE-AIPMT-2015]

8.2.2 ACQUIRED IMMUNITY [AIIMS-2015; CBSE-AIPMT-2015]

8.2.3 ACTIVE AND PASSIVE IMMUNITY [AIIMS-2015; CBSE-AIPMT-2015]

8.2.4 VACCINATION AND IMMUNISATION [AIIMS-2015; CBSE-AIPMT-2015]

8.2.5 ALLERGIES [AIIMS-2015; CBSE-AIPMT-2015]

8.2.7 IMMUNE SYSTEM IN THE BODY [AIIMS-2015]

8.3 AIDS [AIIMS-2015; CBSE-AIPMT-2015]

8.4 CANCER [AIIMS-2015; CBSE-AIPMT-2015]

8.5 DRUGS AND ALCOHOL ABUSE [AIIMS-2015; CBSE-AIPMT-2015]

8.5.2 ADDICTION AND DEPENDENCE [AIIMS-2015]

Chapter 09. STRATEGIES FOR ENHANCEMENT IN FOOD PRODUCTION

9.1 ANIMAL HUSBANDARY [AIIMS-2015]

9.1.1.1 DAIRY FARM MANAGEMENT [AIIMS-2015]

9.1.2 ANIMAL BREEDING [AIIMS-2015]

9.1.3 BEE-KEEPING [AIIMS-2015]

9.2 PLANT BREEDING

9.2.1 WHAT IS PLANT BREEDING ? [AIIMS-2015; CBSE-AIPMT-2015]

9.2.2 PLANT BREEDING FOR DISEASE RESISTANCE [AIIMS-2015; CBSE-AIPMT-2015]

9.2.3 PLANT BREEDING FOR DEVELOPING RESISTANCE TO INSECT PESTS


9.2.4 PLANT BREEDING FOR IMPROVED FOOD QUALITY


9.3 SINGLE CELL PROTEIN (SCP) [CBSE-AIPMT-2015]



9.4 TISSUE CULTURE [CBSE-AIPMT-2015]

Chapter 10. MICROBES IN HUMAN WELFARE

10.2 MICROBES IN INDUSTRIAL PRODUCTS [AIIMS-2015; CBSE-AIPMT-2015]

10.2.2 ANTIBIOTICS [AIIMS-2015]

10.2.3 CHEMICALS, ENZYMES AND OTHER BIOACTIVE MOLECULES [CBSE-AIPMT-2015]

10.3 MICROBES IN SEWAGE TREATMENT [CBSE-AIPMT-2015]

10.4 MICROBES IN PRODUCTION OF BIOGAS [AIIMS-2015; CBSE-AIPMT-2015]

10.5 MICROBES AS BIOCONTROL AGENTS [AIIMS-2015; CBSE-AIPMT-2015]

10.6 MICROBES AS BIOFERTILIZERS [CBSE-AIPMT-2015]

UNIT IX BIOTECHNOLOGY

Chapter 11 BIOTECHNOLOGY : PRINCIPLES AND PROCESSES

11.1 PRINCIPLES OF BIOTECHNOLOGY [AIIMS-2015]

11.2 TOOLS OF RECOMBINANT DNA TECHNOLOGY [AIIMS-2015]

11.2.1 RESTRICTION ENZYMES [AIIMS-2015; CBSE-AIPMT-2015]

11.2.2 CLONING VECTORS [AIIMS-2015; CBSE-AIPMT-2015]

11.2.3 COMPETENT HOST (FOR TRANSFORMATION WITH RECOMBINANT DNA)

[CBSE-AIPMT-2015]

11.3 PROCESSES OF RECOMINANT DNA TECHNOLOGY [CBSE-AIPMT-2015]

11.3.1 ISOLATION OF THE GENETIC MATERIAL (DNA) [CBSE-AIPMT-2015]

11.3.3 AMPLIFICATION OF GENE OF INTEREST USING PCR


11.3.4 INSERTION OF RECOMBINANT DNA INTO THE HOST CELL/ORGANISM

[CBSE-AIPMT-2015]

11.3.5 OBTAINING THE FOREIGN GENE PRODUCT [CBSE-AIPMT-2015]

11.3.6 DOWNSTREAM PROCESSING [CBSE-AIPMT-2015]



Chapter 12. BIOTECHNOLOGY AND ITS APPLICATIONS

12.1 BIOTECHNOLOGICAL APPLICATIONS IN AGRICULTURE[AIIMS-2015; CBSE-AIPMT-2015]

12.2 BIOTECHNOLOGICAL APPLICATIONS IN MEDICINE [AIIMS-2015; CBSE-AIPMT-2015]

12.2.1 GENETICALLY ENGINEERED INSULIN [CBSE-AIPMT-2015]

12.2.2 GENE THERAPY [AIIMS-2015; CBSE-AIPMT-2015]

12.2.3 MOLECULAR DIAGNOSIS [CBSE-AIPMT-2015]

12.3 TRANSGENIC ANIMALS [AIIMS-2015; CBSE-AIPMT-2015]

12.4 ETHICAL ISSUES

UNIT X ECOLOGY

Chapter 13. ORGANISMS AND POPULATION

13.1 ORGANISM AND ITS ENVIRONMENT [CBSE-AIPMT-2015]

13.1.3 ADAPTATIONS [AIIMS-2015]

13.2 POPULATION [CBSE-AIPMT-2015]

13.2.1 POPULATION ATTRIBUTES [AIIMS-2015; CBSE-AIPMT-2015]

13.2.2 POPULATION GROWTH [AIIMS-2015]

13.2.3 LIFE HISTORY VARIATION [AIIMS-2015]

13.2.4 POPULATION INTERACTIONS [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 14. ECOSYSTEM

14.2 PRODUCTIVITY [CBSE-AIPMT-2015]

14.3 DECOMPOSITION [AIIMS-2015; CBSE-AIPMT-2015]

14.4 ENERGY FLOW [AIIMS-2015; CBSE-AIPMT-2015]

14.5 ECOLOGICAL PYRAMIDS [CBSE-AIPMT-2015]

14.7 NUTRIENT CYCLING

14.7.1 ECOSYSTEM – CARBON CYCLE [CBSE-AIPMT-2015]



Chapter 15. BIODIVERSITY AND CONSERVATION

15.1 BIODIVERSITY

15.1.1 HOW MANY SPECIES ARE THREE ON EARTH AND HOW MANY IN INDIA

[CBSE-AIPMT-2015]

15.1.2 PATTERNS OF BIODIVERSITY [CBSE-AIPMT-2015]

15.1.3 THE IMPORTANCE OF SPECIES DIVERSITY TO ECOSYSTEM


15.1.4 LOSS OF BIODIVERSITY [AIIMS-2015; CBSE-AIPMT-2015]

15.2 BIODIVERSITY CONSERVATION

15.2.2 HOW DO WE CONSERVE BIODIVERSITY? [AIIMS-2015; CBSE-AIPMT-2015]

Chapter 16. POLLUTION AND GLOBAL ENVIRONMENTAL CHANGE

16.1 AIR POLLUTION AND ITS CONTROL [AIIMS-2015; CBSE-AIPMT-2015]

16.1.1 CONTROLLING VEHICULAR AIR POLLUTION : A CASE STUDY OF DELHI

[CBSE-AIPMT-2015]

16.2 WATER POLLUTION AND ITS CONTORL

16.2.1 DOMESTIC SEWAGES AND INDUSTRIAL EFFLUENTS


16.4 AGRO-CHEMICALS AND THEIR EFFECTS

16.4.1 CASE STUDY OF ORGANIC FARMING [AIIMS-2015]

16.6 GREENHOUSE EFFECT AND GLOBEL WARMING [AIIMS-2015; CBSE-AIPMT-2015]

16.7 OZONE DEPLETION IN THE STRATOSPHERE [AIIMS-2015]

16.8 DEGRADATION BY IMPROPER RESOURCE UTILISATION AND MAINTENANCE


16.10 WILDLIFE AND CONSERVATION OF NATURAL RESOURCES [CBSE-AIPMT-2015]



CBSE-AIPMT-2014PHYSICS

No. of questions XI Std. : 22XII Std. : 23

Memory based theoretical questions : 6Numerical Questions : 39

CHEMISTRYNo. of questions from XI Std. : 22No. of questions from XII Std. : 23Memory based theoretical questions : 35Numerical questions : 10Physical Chemistry : 22Organic Chemistry : 15Inorganic Chemistry : 8

BIOLOGYQuestions from Unit of XI Std. : 51Questions from Units of XII Std : 39Unit I : Diversity in the Living World : 18Unit II : Structural Organisation in Plants & Animals : 7Unit III : Cell : Structure and Functions : 9Unit IV : Plant Physiology : 5Unit V : Human Physiology : 12Unit VI : Reproduction : 13Unit VII : Genetics & Evolution : 8Unit VIII : Biology in Human Welfare : 4Unit IX : Biotechnology : 4Unit X : Ecology : 10

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