Class 11 > PHYSICS
1.1. QUANTITIES AND DIMENSIONAL ANALYSIS
1.0. FRICTIONAL FORCE
1.0. INTRODUCTION-PART 1
2.0. INTRODUCTION-PART 2
1.0. APPLICATION OF CIRCULAR MOTION
1.0. GRAVITATIONAL POTENTIAL FIELD, ENERGY AND INTENSITY
1.0. INTRODUCTION AND ATOMIC VIEW OF ELASTICITY
1.0. CONSERVATION LAWS FOR ELEMENTARY PARTICLES
2.0. TERMINOLOGIES AND TYPES OF INTERACTIONS
3.0. QUARK AND QUARK MODEL
4.0. CRITICAL DENSITY
5.0. THREE GENERATION OF QUARKS AND BIG BANG THEORY
6.0. DARK MATTER AND DARK ENERGY
1.0. BLACK HOLES AND GRAVITATIONAL WAVES
2.0. THERMAL EQUILIBRIUM AND ZEROTH LAW OF THERMODYNAMICS
1.0. HEAT AND TEMPERATURE
1.0. REAL AND APPARENT EXPANSION
2.0. DETERMINATION OF COEFFICIENT OF LINEAR EXPANSION OF A SOLID BY USING PULLINGER'S APPARATUS
3.0. DETERMINATION OF COEFFICIENT OF LINEAR EXPANSION USING DULONG AND PETIT'S METHOD
4.0. THERMAL EXPANSION OF SOLIDS
5.0. DIFFERENTIAL EXPANSION
6.0. ANAMOULOUS EXPANSION OF WATER
7.0. THERMAL EXPANSION - NUMERICAL PROBLEM
6.0. CHANGE OF PHASE AND LATENT HEAT
2.0. DETERMINATION OF SPECIFIC HEAT CAPACITY OF SOLID BY METHOD OF MIXTURE
4.0. NEWTON'S LAW OF COOLING
7.0. DETERMINATION OF LATENT HEAT OF FUSION OF ICE BY METHOD OF MIXTURE
5.0. SPECIFIC HEAT CAPACITY OF LIQUID BY METHOD OF COOLING
9.0. QUANTITY OF HEAT ENERGY - NUMERICAL PROBLEMS
8.0. DETERMINATION OF LATENT HEAT OF VAPORISATION OF WATER
1.0. BOYLE'S LAW AND CHARLES' LAW
2.0. IDEAL GAS EQUATION AND DALTON'S LAW OF PARTIAL PRESSURE
3.0. EQUALITY OF VOLUME AND PRESSURE COFFIECIENT - KINETIC THEORY OF GASES
4.0. PRESSURE EXERTED BY GAS
1.0. ELECTRIC CHARGES AND ELECTROSTATIC INDUCTION
2.0. CHARGING A BODY POSITIVELY AND NEGATIVELY BY INDUCTION, SURFACE CHARGE DENSITY, AND THE ACTION OF POINTS
1.0. CONDUCTION
2.0. CONDUCTIVITY OF A METAL ROD BY SEARLE'S METHOD
3.0. BLACK BODY RADIATION
4.0. STEFAN'S LAW OF BLACK BODY RADIATIONÂ
5.0. TRANSFER OF HEAT - NUMERICAL PROBLEMS
21. Potential, potential difference and potential energy
1.0. CAPACITORS AND CAPACITANCE
2.0. PARALLEL PLATE CAPACITOR AND DIELECTRIC CONSTANT
3.0. SERIES AND PARALLEL COMBINATION OF CAPACITOR
4.0. SERIES AND PARALLEL COMBINATION OF RESISTANCE
5.0. SHARING OF CHARGE BETWEEN TWO CONDUCTORS
1.0. OHM'S LAW, OHMIC AND NON-OHMIC CONDUCTORS
2.0. ELECTRIC CURRENT AND SOME TERMINOLOGIES
3.0. EMF, TERMINAL POTENTIAL DIFFERENCE, INTERNAL RESISTANCE
4.0. NUMERICAL PROBLEMS
5.0. VARIATION OF RESISTANCE WITH TEMPERATURE
6.1. DRIFT VELOCITY
7.0. POTENTIAL DIVIDER CIRCUIT, RESISTER AND ITS TYPES
1.0. RUTHERFORD'S ALPHA PARTICLE SCATTERING EXPERIMENT
2.0. NUCLEUS AND ITS PROPERTIES
3.0. EINSTEIN'S MASS ENERGY EQUIVALENCE
4.0. MASS DEFECT AND BINDING ENERGY
5.0. NUCLEAR REACTION - NUCLEAR FUSION AND NUCLEAR FISSION REACTION
1.0. TYPES OF SOLIDS AND ENERGY BANDS
2.2. INTRINSIC AND EXTRINSIC SEMI-CONDUCTOR
11.0. SPHERICAL MIRROR
12.0. RELATIONSHIP BETWEEN FOCAL LENGTH AND RADIUS OF CURVATURE
13.0. RULES FOR CONSTRUCTING RAY DIAGRAMS
14.0. CONCAVE MIRROR WITH VIRTUAL IMAGE
15.0. MIRROR FORMULA FOR CONVEX MIRROR
16.0. MAGNIFICATION
17.0. POSITION, NATURE OF SIZE OF IMAGE FROMED BY CONCAVE MIRROR
1.0. REFRACTION OF LIGHT
2.0. REAL AND APPARENT DEPTH
3.0. REFRACTION THROUGH SEVERAL PARALLEL MEDIA
4.4. LATERAL SHIFT, REAL AND APPARENT DEPTH
5.5. RELATION BETWEEN REFRACTIVE INDEX, CRITICAL ANGLE AND TOTAL INTERNAL REFLECTION
6.0. MINIMUM DEVIATION
8.0. LAW OF REFRACTION OF LIGHT AND REFRACTIVE INDEX
1.0. PRISM
2.0. MINIMUM DEVIATION
3.0. LENS FORMULA FOR VIRTUAL IMAGE BY CONVEX LENS
1.0. LENS MAKER'S FORMULA
2.0. LENSES - NUMERICAL PROBLEMS
1.0. DISPERSION AND ITS CAUSES
2.0. PURE AND IMPURE SPECTRUM
5.0. CHROMATIC ABERRATION
6.0. ACHROMATISM
30.0. DISPERSION OF LIGHT -NUMERICAL PROBLEMS
2.0. HUMAN EYE
3.0. SIMPLE MICROSCOPE
4.0. TERRESTRIAL TELESCOPE
4.0. OPTICAL INSTRUMENTS - NUMERICAL PROBLEMS
5.0. OPTICAL INSTRUMENTS - COMPOUND MICROSCOPES
POSITION, NATURE OF SIZE OF IMAGE FROMED BY CONCAVE MIRROR
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