H AIIMS & CBSE-AIPMT-2015 1 OW TO CRACK CLASS XI CHAPTER WISE IMPORTANT TOPIC FOR AIIMS & CBSE-AIPMT-2015 C T M S L HAPTER HREE OTION IN A TRAIGHT INE 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 t CASE II B : If particle is projected vertically downward with speed u 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 H i.e., Particle falling freely under gravity [AIIMS-2015; CBSE-AIPMT-2015] C F M P HAPTER OUR OTION IN A LANE 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 PLANE 4.7.1 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 PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 2 OW TO CRACK 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] C F L M HAPTER IVE AWS OF OTION 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] C S W , E P HAPTER IX ORK NERGY AND OWER 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 [AIIMS-2015; CBSE-AIPMT-2015] 6.11 POWER [AIIMS-2015; CBSE-AIPMT-2015] PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 3 OW TO CRACK 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 [AIIMS-2015; CBSE-AIPMT-2015] 6.8 THE CONSERVATION OF MECHANICAL ENERGY [CBSE-AIPMT-2015] Stability [CBSE-AIPMT-2015] C F , S & S I , HAPTER IVE IX EVEN MPULSE 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] C S C R HAPTER EVEN IRCULAR AND OTATIONAL 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] PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 4 OW TO CRACK 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] C E G HAPTER IGHT RAVITATION 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 v [AIIMS-2015; CBSE-AIPMT-2015] o PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 5 OW TO CRACK 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] PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 6 OW TO CRACK CLASS XI CHAPTER WISE IMPORTANT TOPIC FOR AIIMS & CBSE-AIPMT - 2015 C N M P S HAPTER INE ECHANICAL ROPERTIES OF OLIDS 9.1 INTRODUCTION Molecular 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] C T M P F HAPTER EN ECHANICAL ROPERTIES OF LUIDS 10.2 PRESSURE 10.2.3 Atmospheric Pressure and Gauge Pressure Steady and turbulent flow [AIIMS-2015] 10.3 STREAMLINE FLOW Equation 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] C E T P M HAPTER LEVEN HERMAL ROPERTIES OF ATTER 11.2 TEMPERATURE AND HEAT Temperature [CBSE-AIPMT-2015] PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 7 OW TO CRACK 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] C T T HAPTER WELVE HERMODYNAMICS 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 C > C [CBSE-AIPMT-2015] P V 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] PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 8 OW TO CRACK 12.11SECOND LAW OF THERMODYNAMICS [AIIMS-2015] C T K T HAPTER HIRTEEN INETIC HEORY 13.4 KINETIC THEORY OF AN IDEAL GAS [AIIMS-2015] 13.4.2 Kinetic Interpretation of Temperature [CBSE-AIPMT-2015] C F S H M HAPTER OURTEEN IMPLE ARMONIC OTION 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 [AIIMS-2015; CBSE-AIPMT-2015] 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 [AIIMS-2015; CBSE-AIPMT-2015] 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] C F W HAPTER IFTEEN AVES 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 PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 9 OW TO CRACK 15.4.1 Speed of a Transverse Wave on Stretched String [AIIMS-2015; CBSE-AIPMT-2015] 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] PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015 H AIIMS & CBSE-AIPMT-2015 10 OW TO CRACK CLASS XII CHAPTER WISE IMPORTANT TOPIC FOR AIIMS & CBSE-AIPMT - 2015 C O E C F HAPTER NE LECTRIC HARGES AND IELDS 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 field Motion 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 linear charge 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] C T E P C HAPTER WO LECTROSTATIC OTENTIAL AND APACITANCE 2.4 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] PARADISE INSTITUTE YOUR GATEWAY TO AIIMS CBSE-AIPMT-2015
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