Physics
- 1St Law Of Thermodynamics Conservation Of Energy
- 3 Kirchhoff S Loop Example 2 Finding Symmetric Branches
- 5Th Question Based On Spectral Series
- 6Th Question Based On Effective Mass Error In Rydberg Constant
- 7Th Question Based On Spectral Series And Diffraction Pattern Using Grating
- 8Th Question Based On Distance Of Closest Approach
- A Finite Wire Is Used To Wind Six Turns Around An Insulating Sphere
- A General List Of Topics Covered
- A Long Solid Conducting Cylinder Of Radius R Has A Cylindrical Hole
- A Numerical Problem
- A Thin Sheet In Front Of S1 Hole
- A Wire Of Length Carrying Current I Is To Be Bent Into A Circle Or A Square
- Acceleration Of A Particle
- Accomodation Of Human Eye
- Accuracy And Precision
- Action Reaction Pairs
- Addition Of Vectors
- Additional Questions
- Adiabatic Is Steeper Than Isotherm
- Adiabatic Process And Work Done By A Gas
- All About Periodic Table
- Alpha Decay
- Alpha V For Copper
- Ampere Law
- Ampere S Law For More Than One Current Carrying Conductor
- Ampere's Law
- Amplitude Modulated Wave
- Amplitude Modulation Index
- Amplitude Modulation Its Mathematical Manipulation
- An Example On Magnification Of Compound Microscope
- An Important Reason To Study Physics
- Analysis
- Analysis Of An Ac Generator
- Analysis Of Frank Hertz Experiment Result
- Analysis Of Impact
- Analysis Of Series Lcr Circuit
- Analytical Solution
- Angle Of Contact And Its Calculation
- Angular Acceleration
- Angular Displacement
- Angular Magnification Of Simple Microscope
- Angular Momentum
- Angular Momentum And Torque
- Angular Momentum Rotation About A Fixed Axis
- Angular Velocity
- Anomalous properties of water near 4 degree Celsius
- Another Mathematical Representation Of SHM
- Apparent Power And True Power
- Application Of Ampere S Law Examples
- Application Of Induced Emf
- Applications Of Cross Product
- Applications Of Dot Product
- Applications Of Elasticity On Different Components Of Human Body
- Applications Of Optical Fibre
- Applications Of Young Double Slit Experiment
- Applying Conservation Laws Of Momentum
- Assisting Devices Simple Microscope
- Atmospheric Pressure And Gauge Pressure
- Atmospheric Pressure As A Measure Of Height
- Atom As Dipole
- Atomic Mass And Number
- Atomic Mass Unit
- Atoms And Their Models
- Average
- Average Acceleration And Instantaneous Acceleration
- Average Power
- Average Power Results
- Average Speed Of Electrons
- Average Velocity And Average Speed
- Average Velocity Of Electrons
- Averages Root Mean Square And Power
- Avogadro Hypothesis
- Balmer And Lyman Series
- Bandgap Energy Temp Variation Of Resistance
- Bands Conduction Valence
- Bandwidth And Quality Factor
- Basic Element Of Communication System
- Battery
- Beat Phenomenon
- Bernoulli S Equation For Streamline Liquid Flow
- Beta Decay
- Biasing
- Binding Energy Per Nucleon
- Binding Energy Quantitatively
- Biot Savart Law
- Block S Place On An Inclient Plane
- Block Sliding On A Frictionless Surface And Encountering A Spring
- Blood Flow Through The Heart
- Body In Uniform Circular Motion
- Bohr 2Nd Postulate
- Bohr Model
- Bohr Model For Hydrogen Atom Radius Velocity Calculation
- Bohr S Model
- Boyle S Law And Charles S Law
- Breakdown
- Brief Explanation Of Next Part Of Lecture
- Brief History Of Modern Physics
- Brief Intro Of Probability Theory
- Buoyancy And Archimedes Principle
- Calculate The Magnetic Field Produced By Finite Current Element
- Calculating Amplitude Of The Steady State Solution
- Calculating Final Velocities After Impact
- Calculation Of Electric Field From A Given Electric Potentialn
- Calculation Of Energy Loss
- Calculation Of Potential Difference Between Two Points
- Calculation Of Potential Due To A Charged Conducting Sphere
- Calculation Of Potential Due To Dipole At A General Point In A Space
- Calorimeter And Its Example
- Capacitive Circuits
- Capacitor Capacitance
- Capacitor With A Dielecter
- Capillarity
- Carity With The Conducture
- Carnot Theorem
- Cartesian Sign Convention For A Concave Mirror
- Causes Of Powers Loss
- Cell Combination And Capacity Rating Of Battery
- Cells In Parallel
- Center Of Mass
- Centre Of Mass
- Chain Reactions
- Change In Interference Conditions Because Of Polarisation
- Change In Resistance Due To Increase In Temperature
- Change Of State Latent Heat
- Charge And Mass Of Subatomic Particle
- Charge Density
- Charge Flow And Heat Flow
- Charging And Discharging In Ac
- Circular Motion Of Bodies
- Classical Motion Newton S Laws Of Motion
- Classical Physics
- Classification Of Oscillators
- Closest Distance Of Approach
- Collection Of Masses N Bodies
- Collision Problems
- Combination Of Errors
- Combination Of Several Lenses
- Combination Of Thin Lenses In Contact
- Combinations Of Thin Conducting Plates
- Comparision Of Size Of Atom Closest Approach
- Comparison Of Conduction Current And Displacement Current
- Comparison Of Electrostatic And Gravitational Forces
- Comparison Of Forces Due To Earth And The Sun On Earth
- Concept Of Electrical Breakdown
- Concept Of Ideal Machine Why It Is Impossible To Construct An Engine With 100% Efficiency
- Concept Of Internal Energy As A State Function
- Concept Of Reduced Mass
- Concept Of Refrigerator And Coefficient Of Performance
- Concept Of Relative Velocity
- Concept Of Resonance
- Concept Of Reversible And Non Reversible Process
- Concept Of Reversible Heat Engine
- Concept Of T-S Diagram Ts Diagram For Carnot Engine
- Concept Of Temperature
- Concet Of Adiabatic Process And Work done In This Process
- Conclusion
- Conclusion Of Examples
- Condition For Bright And Dark Fringes
- Conduction By Holes And Electrons
- Conductor with cavity
- Conductors Insulators And Semiconductors
- Connecting Classical Theory And Photoelectric Effect
- Consequence Of Rutherford Model Instablity
- Conservation Laws
- Conservation Of Angular Momentum
- Conservation Of Energy
- Conservation Of Linear Momentum
- Conservative Forces
- Consider A Vector Field Given By F Kxi Kyj Where K Is Constant
- Constant Volume Gas Thermometer
- Constituents And Types Of Transformers
- Constituents Of Atomic Nucleus
- Construction Of Cyclotron With Example
- Contact Forces
- Contiunous Charge Distribution
- Coplane Forces
- Coulomb S Law
- Credits
- Critical Angle
- Curious Coincidence Commonality
- Current Carrying Loop As A Magnetic Dipole
- Current Density
- Current Voltage Characteristics
- Cyclotron Frequency
- Cylindrical Capacitor Introduction
- D Vs I
- Dalton S Law Of Partial Pressure
- Damped Harmonic Oscillator
- Davisson Germer Experiment
- De Broglie Hypothesis
- De Broglie S Hypothesis
- Decay Equation
- Defining Coefficient Of Restitution
- Definition Of Electron Volt Ev
- Definition Of Velocity Acceleration Distance Displacement
- Demodulation Of Amplitude Modulated Wave
- Demonstration Of Friction Card Coin Experiment
- Demonstration Of Tir Using Laser And Optical Fibre
- Demonstration Of Tir Using Laser And Prism
- Derivation Of Ampere S Law For Arbitary Current Carrying Loop
- Derivation Of Bohr Formula
- Derivation Of Speed Of Light In Free Space Using Maxwell S Equations
- Derivation Of The Work Done And Efficiency Of Carnot Cycle
- Deriving Magnification For Compound Microscope
- Deriving The Mirror Equation
- Detailed Outline
- Determination Of G
- Determination Of Gravitational Constant
- Determination Of Wavelength Of Light By Single Slit Experiment
- Determining Image Of An Extended Object
- Developing Technologies
- Deviation From Ohm S Law
- Diamagnetic Materials
- Dielation Polarization
- Difference Between Gravitation And Atomistic Model
- Difference Between Topics Covered In Modern Physics And Other Parts Of Physics
- Different Phenomenon At Some Specific Temperature
- Differential Calculus
- Diffraction At A Straight Edge
- Diffraction Due To Circular Aperture
- Diffraction Of Light
- Diffusion And Drift Current
- Dimensional Analysis
- Dimensions Of Physical Quantities
- Direct And Oblique Collision
- Direction Of Area Vector
- Direction Of Current
- Discussion On Carnot Engine And Processes Associated With It
- Dispersion
- Dispersion Compensation
- Dispersion Relation
- Displacement Current And Generalized Ampere S Law
- Displacement Time Graph 1D Motion
- Distance Between Earth And Sun
- Distance Between Earth Moon And Sun
- Distances And Masses
- Does Inertial Frame Exists
- Doppler Effect
- Double Hole Vs Double Slit Pattern Comparison
- Drift Velocity
- Due To A Circuler Loop Of Current
- Earth
- Eddy Currents
- Effect Of Forces
- Effect Of Polariser On Interference Image Formed From A Research Paper
- Effective Nuclear Charge
- Efficiency Of A Heat Engine
- Efficiency Of Carnot Engine Using T S Diagram
- Elastic Properties Of Matter
- Electric Current In Semiconductors
- Electric Field And Potential And Concept
- Electric Field In Depletion Layer
- Electric Field Intensity Of Light
- Electric Field Lines
- Electric Field Speed
- Electric Flux
- Electric Flux By Conductor
- Electric Flux By Point Charge In Arbitratry Surface
- Electric Flux By Point Charge In Spherical Surface
- Electric Potential Potential Energy Analysis Of Atom
- Electro Field And Potential
- Electro Static Potential
- Electro Static Potential And Potential Energy
- Electro Statics
- Electromagnetic Spectrum
- Electromagnetic Waves
- Electromagnetism For Photoelectric Effect
- Electromotive Force
- Electromotive Force And Battery
- Electron And Hole System In Silicon Crystal
- Electronic Configuration
- Electrostatic Energy Store In A Capacitor
- Electrostatic Potential Energy
- Electrostatics
- Electrostatics Question 01
- End
- Energy And Terms Connected To It
- Energy In Classical And Quantum Mechanical Realm
- Energy In Emws
- Energy In Magnetic Field
- Energy Levels Current Flow In Wire
- Energy Of Nth Orbit Energy Level
- Energy Of Photon Explained Using Relativity
- Energy Stored In Capacitor
- Energy Stored In Capacitor Introduction
- Energy Stored In Elastic Solid
- Entropy As A Measure Of Disorderliness In The System And Second Law Of Thermodynamics
- Enumerate Earlier Related Concepts
- Equations From Faraday S Law Of Induction
- Equations Of Emws
- Equations Of Waves
- Equilibrium
- Equilibrium And Ideal Gas
- Equipartition Of Energy
- Equipotential Surface Of A Dipole
- Equipotential Surface Of A Point Charge
- Equivalence Principle
- Equivalent Circuits Example 1
- Equivalent Circuits Example 2
- Equivalent Circuits Example 6
- Escape Velocities
- Estimates
- Example
- Example 1
- Example 1 Dummy Circuit
- Example 1 Loop Kept Inside A Time Varying Magnetic Field
- Example 1 Motional Emf
- Example 1 On Finding Forces In Multicharge Cases Using Superposition
- Example 1 Toroid
- Example 2
- Example 2 A Simple Demonstration Of Voltage Law
- Example 2 Energy Density
- Example 2 Mutual Inductance Between Two Coaxial Solenoids
- Example 2 On Superposition Principle
- Example 2 Two Coaxial Solenoids
- Example 3 Application Of Kirchhoff Laws In Real Circuit
- Example 3 Coaxial Solenoid And Circular Loop
- Example 3 Energy Density Of Solenoid
- Example 3 Infinite Circuit
- Example 3 Long And Short Coaxial Solenoid
- Example 4 Conical Resistor
- Example 4 Self Inductance
- Example 4 Using Equivalent Circuit Concepts With Kirchhoff Laws
- Example 5 Composite Resistor
- Example 5 Infinite Resistors
- Example 6 Circuits With Capacitors
- Example And The Factors On Which Relative Errors Depend
- Example Of Lcr Circuit
- Example Of Parallel Axis Theorem
- Example On Calculation Of Charges On Capacitors
- Example On Combination
- Example On Cylindrical Capacitor
- Example On Finding Errors
- Example On Forced Oscillation With No Frictional Force
- Example On Parallel Cell Combination
- Example On Spherical Capacitor
- Example On Sublimation
- Example On Tensile Stress
- Example On The Combination Of Errors
- Example On Time Lag
- Example On Vernier Caliper
- Example Part 1
- Example Part 2
- Example Problem
- Example Problem 1
- Example Problem 11
- Example Problem 12
- Example Problem 13
- Example Problem 14
- Example Problem 15
- Example Problem 16
- Example Problem 17
- Example Problem 18
- Example Problem 19
- Example Problem 2
- Example Problem 20
- Example Problem 21
- Example Problem 3
- Example Problem 4
- Example Problem 5
- Example Problem 6
- Example Problem 7
- Example Problem 8
- Example Problem 9
- Example Problems
- Examples
- Examples
- Examples And Applications Of Dimensional Analysis
- Examples Involving Vector Operations
- Examples Of Different Forces
- Examples On Lcr Circuit
- Examples On Refraction Of Light
- Examples On Resonance Bandwidth And Quality Factor
- Examples Part 1
- Examples Part 2
- Examples To Recap
- Excellent Observations Universal Patterns
- Excess Charge On Conductors
- Exercise Equilateral Triangular Cross Saction And Refractive Index
- Experiment
- Experiment Based On Releasing Sphere And Disc From The Incline Plane
- Experiment Demonstrating That Velocity At Top Most Point Of A Rolling Body Is Twice Of Centre Velocity
- Experiment Details
- Experiment Of Chadwick
- Experiment On Magnetic Levitation
- Experiment On Resonance Effect
- Experiment Parameters
- Experiment Rectifier Action
- Experiment To Show Varying Magnetic Fields Can Produce A Current
- Experimental Determination Of Young's Modulus
- Experimental Observations
- Experimental Parameters
- Experimental Result Analysis
- Experimental Support Of Photoelectric Effect
- Experiments On Eddy Currents
- Experiments On Magnetic Effects
- Explaining Experiment Of Binary Accelerated Non Inertial Frame
- Explaining Experiment Of Rotational Non Inertial Frame Using Pseudo Force
- Extended Objects
- Extensive And Intensive Thermodynamics
- External And Internal Forces
- Eye Defects
- Faraday S Law And Motional Emf
- FBD Of Pulley
- FBD Of Pulley Mass System
- Ferromagnetic Materials
- Field By A Charged Conducting Sphere
- Field Due To A Line Charge Density
- Field Due To An Infinite Sheet
- Field Lines For A System Of Charges
- Field Of An Electric Dipole
- Filter
- Final Problem On SHM Of Square Plate
- Finding Internal Resistance Of Battery
- Finding Unknown Resistance Using Wheatstone Bridge
- Finding Zero Force Point
- Finite Width A Of The Slit
- Flow Of Current Electrolyte Insulator Semiconductors Metal
- Focal Length
- Focal Plane
- Force Between Two Current Carrying Conductors
- Force Due To Induced Current
- Force On Current Carrying Conductors In Magnetic Field
- Forced Oscillation With No Frictional Force
- Forces On A Body
- Forces On A Particle Moving On A Curved Path
- Formation Of Images By A Lens
- Formulas
- Formulation Centripetal
- Frame Of Reference And Conservation Of Energy
- Frank Hertz Experiment
- Fraunhofer Diffraction
- Frequency Modulation
- Frequency Of Standing Waves
- Frequency Wavelength Conversion
- Fresnel Diffraction
- Friction
- Friction Due To Fluid
- Friction Forces
- Fringe Shift In The Two Hole Interference Experiment
- Fringe Width
- Fringe Width In Fraunhofer Diffraction
- Full Wave Rectifier
- Fundamental Forces
- Fundamental Forces And Their Properties
- Fusion
- Galilean Law Keplers Law Centripetal Forces The Gravitational Law
- Galilean Law Of Freely Falling Bodies
- Galvanometer
- Galvanometer As An Ammeter
- Galvanometer To A Voltmeter
- Gamma Decay
- Gaucis Low In Dielecter
- Gauss'S Law
- Generation Of Amplitude Modulated Wave
- Generation Of Electromagnetic Waves
- Geometric Shadow Of Obstacle
- Geostationary Satellite
- Gieger Marsden Result
- Graphical Analysis Of Amplitude Modulation
- Graphical Interpretation
- Graphical Interpretation Of Motion
- Gravitation
- Gravitation Potential And Potential Energy
- Gravitation Principal Of Equivalence
- Gravitational Force Physical Insight
- Gravitational Potential Energy
- Half Life And Mean Life
- Half Wave Rectification
- Heat Transfer and it's example
- Helical Path With Example
- Helio Centric Model
- High Pass Filter And Low Pass Filter
- Historical Introduction To Quantum Mechanics And Its Role In Daily Life
- History Of Experiments
- Homework Problem
- Hooke's law
- Hooke's Law
- How To Determine Forces
- How To Determine K
- How To Measure Physical Quantities
- Hw Problem On The Concept Of Potential Due To Dipole
- Hydraulic Brake And Hydraulic Lift
- Hydrogen Atom
- Hydrogen Atom Energy Levels
- Hypothesis Of Bohr
- Hysteresis
- I V Characteristic
- Ideal Gas
- Ideal Gas In A Container
- Ideal Transformers
- If Add Friction On Table For Mass 1
- Illustration
- Illustration 1
- Illustration 2
- Illustration Of Perpendicular Axis Theorem
- Illustration Problem Ledder
- Image Formation On Retina
- Image Of Point Object
- Impact Of Gravitation
- Importance Of Light
- Important Discussion On Thermal Expansion
- Impulse
- Impulse Momentum Theorem
- Impurity Levels
- In The Case Of Prism
- Inclined Plane
- Induced Electric Field In Example 3
- Inductive Circuits
- Inertial Frames
- Infinite loop straight current charging conductor
- Input Characteristic
- Instantaneous Impulse
- Instantaneous Velocity And Instantaneous Speed
- Integral Calculus
- Intensity Distribution And Variation
- Intensity Distribution On The focal Plane
- Intensity Function In Double Slit Experiment With Slit Of Finite Width
- Intensity Maxima And Minima
- Interatomic Potential Between Atoms And Neutrality
- Interference
- interference Between Two Different Λs
- Interference Fringes
- Interference Of Intensity
- interference Recap
- Interference With A Source Emitting Multiple wavelengths
- Interference Young S Double Slit Experiment
- Internal Reflection In Glass Slab
- Internal Reflection In Optical Fibre
- Intrinsic Semiconductors And Extrinsic Semiconductors
- Intro To Electric Fields
- Introduction
- Introduction Of Electric Charges
- Introduction Of Electric Current
- Introduction Of Electrostatic Potential
- Introduction To Atomic Models
- Introduction To Bjt
- Introduction To Bohr Model
- Introduction To Compound Microscope
- Introduction To Entropy An Extensive Thermodynamic Variable
- Introduction To Error Analysis
- Introduction To Faraday S Law Of Induction
- Introduction To Forced Damped Oscillator
- Introduction To Interferometer Michaelson And Max Zehnder
- Introduction To Magnetostatics
- Introduction To Motion In A Plane
- Introduction To Nuclear Stability
- Introduction To Planar Motion
- Introduction To Scalars
- Introduction To Simple Harmonic Motion SHM
- Introduction To State Of Matter
- Introduction To Telescope
- Introduction To The Dual Nature Of Atom
- Introduction To Thermodynamics First Law And Internal Energy Lecture 5 By Prof Amit Dutta
- Introduction To This Topic
- Introduction To Topic
- Introduction To Vectors
- Introduction To Wave Particle Duality
- Ionosphere
- Isotherms Application Of Vander Waal S Eqn
- J J Thomson S Experiment
- Kelvin Temperature Scale And Absolute Temperature
- Kepler Law
- Kepler Observations
- Kinematic Equation Of Rotational Motion
- Kinematics
- Kinematics Equations For Uniformly Accelerated Motion
- Kinetic And Potential Energy In 1 D SHM
- Kinetic Energy Of Rolling Motion
- Kinetic Theory And Thermodynamic
- Kinetic Theory Of Gas Microscopic
- Kirchhoff Junction Rule
- Kirchhoff S Loop Example 2 Identifying Symmetric Branches
- Kirchhoff S Loop Example Finding Symmetric Branches
- Kirchhoff S Loop Example Identifying Symmetric Branches
- Kirchhoff S Loop Example Lack Of Symmetry
- Kirchhoff S Loop Example Use Of Symmetry
- Kirchhoff Voltage Rule
- Kirchhoff's Junction Rule
- Kirchhoff's law
- Kirchhoff's Loop Rule
- Lab Demonstration Of Compound Microscope
- Lab Demonstration Of Telescope
- Lag And Lead Of Current In Lcr Circuit
- Latent Heat
- Latent Heat Values For Different Materials
- Lateral Magnification
- Law Of Conservation Of Energy In A Good Book Keepar
- Law Of Gravitation
- Laws Of Motion
- Laws Of Radioactivity
- Laws Of Refraction
- Lc Oscillations
- Lcr Circuit
- Lcr Circuit Representation
- Led
- Lens Maker Formula
- Lenz S Law
- Lever Principal Of Moments
- Light As Electromagnetic Wave
- Light Waves
- Light Waves In Medium
- Lighting Rods To Protect Against Lightining
- Limit Of Resolution Of Human Eye
- Limit Of Resolution Of Microscope
- Limit Of Resolution Of Telescope
- Limitations Of Dimensional Analysis
- Limiting Situation And Length Scale
- Linear Kinetic Energy And Angular Velocity
- Linear Momentum Of A System Of Particles
- Linearly Polarised Light Or Plane Polarised Light
- Locating C.O.M For Rigid Body
- Longitudinal Wave
- Look At The Limit
- Looking At The Double Slit Experiment When Polarisation Is Considered Vector Electric Fields Are Considered
- Magneic Field Inside Solenoid
- Magnet Moving Toward Or Away From The Coil
- Magnetic Dipole
- Magnetic Field At The Edge Of A Half Infinite Solenoid
- Magnetic Field Between Circular Parallel Plate Capacitors
- Magnetic Field Due To Current Carrying Loop
- Magnetic Field Energy And Energy Density
- Magnetic Field Outside Solenoid
- Magnetic Field Through Surface With Both Displacement And Conduction Current
- Magnetic Field Values
- Magnetic Force And Energy Loss Due To Induced Current
- Magnetic Materials
- Magnetic monopole does not exist
- Magnetic Susceptibility
- Magnetization
- Magnetostatics
- Magnification In Telescope
- Mass Defect And Binding Energy
- Mass Energy Equivalence Einstein Relation
- Mass Spectrometer
- Material Properties Of Different Materials
- Mathematical Digression Of SHM
- Matter Waves
- Max Planck S Theory
- Maxwell S Equation
- Maxwell S Equations For Free Space
- Maxwell Velocity And Speed Distribution
- Mean Free Path
- Measurement Of Pressure
- Measurement Of Temperature
- Microscopic And Macroscopic Approach To Thermal Properties By Prof Amit Dutta
- Millikan Experiment Results Explanation
- Millikan Experiment S Numerical Analysis
- Mindmap
- Mirage An Optical Illusion
- Mobility
- Modifications In An Ac Generator
- Modulation Carrier Wave
- Moment Of A Force Single Particle
- Moment Of Inertia
- Moment Of Inertia Of Some Uniform Objects
- Momentum Transfer
- Moon Earth Force
- More On Cavendish
- More On Nuclear Masses
- Motion In A Vertical Circle
- Motion Of C.O.M And Governing Equation
- Motion Of Charged Paricle In Magnetic Field
- Motion Of Particle In A Circle
- Motion Of System Of Particles And Rigid Bodies
- Motion On Circular Track
- Motion Under Constant Acceleration
- Motional Electromotive Force Example 1 Conducting Rod Moving Perpendicular To Magnetic Field
- Motional Electromotive Force Example 2
- Moving Coil Galvano Meter
- Multiple Bodies Connected By String
- Multiple Decays
- Multiple Pulley And Moving Pulley
- Multiplication Of Vectors By Real Numbers
- Mutual And Self Inductance Recap
- Mutual Inductance
- Mutual Inductance And Faraday S Law
- N Type And P Type Semiconductors
- Natural Consequences Of Refraction
- Near Point And Far Point For Eye
- Neutron The Neutral Radiation
- New Form Of Light
- New Moon Phase
- Newton Law Of Cooling
- Newton S 2Nd Law
- Newton S 3Rd Law
- Newton S Laws Of Motion
- Newton S Universal Law Of Gravitation
- Newton's Third Law
- Newtonian Mechanics
- Nodes In Orbital
- Non Contact Forces
- Non Elastic Materials And Examples
- Non Ideal Gas
- Non Uniform Electric Field
- Normal Reaction
- Nuclear Fission
- Nuclear Forces
- Nuclear Forces Quantitatively
- Numerical Based On T-S Diagram
- Numerical Problem On Density
- Numerical Problem On Pressure
- Numerical Problem To Calculate Force On Eardrum
- Object Size Vs Angular Extent On Retina Angular Resolution
- Observations From The Experiment
- Ohm Law Conductivity And Resistivity
- Ohmic Conductors
- Optics Diffraction
- Optics Interference With Coherent And And Incoherent Waves
- Optics Polarisation Of Light
- Optics Refraction Through A Prism And Dispersion
- Optics Wave Optics Huygens Principle By Prof M R Shenoy
- Order Of Magnitude
- Oscillating Copper Plate
- Oscillation With Constant Frictional Force
- Other Aspects Of Kinematics
- Other Causes Of Power Loss And Rectifying Methods
- Other Experiments
- Other Types Of Telescopes
- Outline Earth Gravity
- Outline Of This Module Part 1
- Outline Part 2
- Output And Transfer Characteristic
- Overmodulation
- P N Junctions
- Parallel Axis Theorem
- Parallel Combination Formula Derivation
- Parallel Plate Capacitor
- Parallelogram Law Of Vector Addition
- Paramagnetic Material
- Paraxial Approximation
- Part 1
- Part 2
- Part 3
- Particle Accelerator
- Particle In 2 Dimensional
- Particle Moving With A Constant Velocity
- Particle Theory Of Light And Related Experiments
- Particles And It S Properties
- Pascals Principle
- Passenger In Car
- Passenger In Elevator
- Path Difference
- Path Difference At Arbitrary Point
- Periodic Motion With Examples
- Periodic Table
- Perpendicular Axis Theorem
- Phenomena Of Resonance And Summary
- Phenomenon Of Tides
- Photodiode
- Photoelectric Effect
- Physical And Molecular Properties Of Solids And Fluids
- Physics In Class Xi Xii
- Planatary Motion
- Plane Waves
- Plasma Oscillation
- Points To Ponder
- Poiseuille's Law
- Polar Satellites
- Polaroid Sheet Or Sheet Polariser
- Position Intensity Of Maxima Single Slit Diffraction
- Position Of Maxima And Minima
- Position Vector
- Potential At Junctions
- Potential Due To An Infinite Linear Charge Density
- Potential Energy And Some Conservative Forces
- Power
- Power Absorbed In Ac Circuit
- Power Absorption And Power Dissipation
- Power And Energy
- Power Factor And Power Triangle
- Power Factor Expression
- Power Factor For Purely Inductive Resistive And Capacitive Circuit
- Power In Capacitive Circuits
- Power In Dc And Ac Circuit
- Power In Inductive Circuits
- Power In Lcr Circuit
- Power Loss
- Power Of Lcr Circuit
- Power Of Lens
- Power Transmission And Its Example
- Pressure
- Pressure Due To Static Liquid
- Principal Foci And Focal Length Of A Lens
- Principal Of Conservation Of Angular Momentum
- Principle Of Superposition
- Probabilistic Nature Of Quantum Theory
- Probability Distribution
- Problem
- Problem 1
- Problem 1 On Time Period Calculation
- Problem 2
- Problem 2 On String Mass System
- Problem 2 On Time Period Calculation
- Problem 3
- Problem 3 On Floating Box
- Problem 4
- Problem 4 On U Tube With Liquid
- Problem 5
- Problem 5 On Simple Pendulum
- Problem 6
- Problem For Solving
- Problem In Electromegnetics
- Problem In planetary Motion Of Atoms Stability Problems
- Problem On Calculating Force On Eardrum
- Problem On Calculating Frequency Of Two Spring System And Summary Of The Lecture
- Problem On Calculating Pressure On Tap
- Problem On Difference In Blood Pressure
- Problem On Drift Velocity
- Problem On Magnetization
- Problem On Mobility
- Problem On Projectile Motion
- Problem On Relaxation Time Constant
- Problem On Resistance
- Problem On Resistivity And Temperature
- Problem On Solving SHM Equation
- Problem Related To Determine Intensity Using Young Experiment
- Problem Related To Determine Wavelength Using Young Experiment
- Problem Related To Young Double Slit Experiment
- Problem Solving Newton's Second Low
- Problem To Calculate Angle Of Contact Of Insect Leg
- Problem To Calculate Density Of Solid Object
- Problem To Calculate Work For Producing Soap Bubble
- Problem To Find Largest Wavelength
- Problems Asked On Energy
- Problems Asked On Work
- Problems For Solving
- Problems On Potential Difference
- Problems On Power
- Problems On Power And Voltage
- Problems On Series And Parallel Combinations
- Problems On Significant Digits
- Problems On Temperature Dependent Resistor
- Product Of Vectors
- Projectile Motion
- Projectile Motion On Inclined Plane
- Propagating Waves
- Propagation Of Linearly Polarised Light Through A Polariser
- Properties
- Properties Of Charges
- Properties Of Emws
- Properties Of Field Lines
- Properties Of Force
- Property Of Moment Of Inertia
- Pursuit Motion
- Quantitative Data
- Quantization Of Charge
- Quantum Mechanics
- Quantum Numbers
- Quasi-static Processes
- Question 01
- Question 02
- Question 03
- Question 04
- Question 05
- Question 06
- Question 07
- Question 08
- Question 09
- Question 10
- Question On Uniform Accelerated Motion
- Questions On Relative Motion
- Quick Recap
- Radiation
- Radius Of Earth
- Random Motion Of The Particle
- Reality The Earth Rotates About Its Axis
- Recall Diffraction By Circular Aperture
- Recall Of Optical Instruments Telescope Microscope Human Eye
- Recall Properties Of Waves
- Recall Single Slit Diffraction Results
- Recall Some Facts
- Recap
- Recap And Laws Of Reflections
- Recap Of 1St Law
- Recap Of Concepts Covered So Far
- Recap Of Error Analysis
- Recap Of Previous Lecture
- Recap Of Reflection And Refraction On Plane Surfaces
- Recap Of Refraction And Image Formation By Lens
- Recap Of The Previous Lecture
- Recap To Electromagnetic Induction
- Recapitulating Learnt So Far In This Lecture
- Recapitulation Of Applications Of Ampere S Law
- Recapitulation Of Concepts Of SHM And Problem 1 On Vertical Spring Mass System
- Recapitulation Of Rutherford Experiment
- Recapitulation Of Spectral Series Rydberg Formula
- Recapitulation Of Thermodynamic Variables Equilibrium Etc Lecture 5
- Recapitulation On Second Law Of Thermodynamics Carnot Engine Efficiency Carnot Theorem
- Recapitulation On Work Done In Different Thermodynamic Process
- Recapitulation On Working Principle And Coefficient Of Performance Of A Refrigerator
- Recapitulation On Working Principle And Efficiency Of Heat Engine
- Reconciliation
- Reflecting And Refracting Telescopes
- Reflection Of Arbitrary Ray
- Reflection Of Light From A Transparent Medium
- Reflection Of Ray Incident At Pole
- Reflection Of Ray Parallel To The Principal Axis
- Reflection Of Waves
- Reflection Through Prism
- Refraction At Curved Surfaces
- Refraction In A Lens
- Refraction Through A Glass Slab
- Refraction Through A Multi Layered Glass Slab
- Refractive Index Of A Prism
- Refractive Index Vs Wavelenghth
- Relation
- Relation Between Current Density And Drift Velocity
- Relation Between Electric Field And Potential
- Relation Between U03Bb V And F
- Relationship Between Angular And Linear Quantities
- Relationship Between Torque And Angular Acceleration
- Relative Motion
- Relative Strengths
- Representation And Propagation Of Emws
- Representation Of Periodic Motion On Displacement Time Graph
- Representation Of Polarised Light
- Resistance
- Resistance Color Coding
- Resistance In Parallel
- Resistive Circuits
- Resolution Of Vectors
- Resolving Power Of Microscope
- Resonance
- Resonant Frequency
- Reverse Biasing
- Reversing Direction Of Propagation Of The Ray
- Revision Electrostatic Potential Energy
- Revision Of Previous Lecture
- Revision Of Projectile Motion
- Rigid Body
- Rigid Body Periodic Motion Of Rod And Disc
- Rotation And Translation
- Rotation Rolling And Shipping
- Rotational Frequency And Quantum Theory
- Rounding Off
- Rules For Operations For Quantities With Errors
- Rutherford Experiment Appartus
- Rutherford Model
- Rutherford Scattering And Result
- Rutherford Scattering Experiment
- Rutherford Scattering Theory
- Rydberg Scattering Formula
- Salient features of 2nd law
- Satellite Motion
- Scalar Dot Product
- Scattering Of Light
- Scientific Theory
- Screw Gauge And Spherometer
- Second Law Of Thermodynamics And Equivalence Of Two Statement
- Second Low Keplers
- Selection Of Antenna
- Self Inductance
- Sequential Reactions
- Series Combination
- Series Combination Formula Derivation
- Sharpness Of Resonance
- Shear Stress
- Shorting
- Si Unit Of Magnetic Field
- Si Units
- Sign Off
- Significant Figures
- Similarity Between Rotational And Linear Motion
- Simple Harmonic Motion
- Simplifying Circuits With Symmetry
- Single Slit Diffraction
- Single Slit Diffraction Intensity Distribution Slit
- Sinusoidal Waves
- Size Of The Nucleus Of An Atom
- Slipping And Frictional Force
- Snell
- Solar Cell
- Solenoid
- Solid Angle
- Solving Equation Of Forced Damped Oscillator
- Solving Problem 1
- Solving Problem 2
- Solving Problem 3
- Solving Problem 4
- Solving Problem 5 Paragraph Type
- Solving Problem 6
- Solving Problem 7
- Solving Problems On Laws Of Motion Question 01
- Some Conclusions Regarding Collisions
- Some Examples On Combination Of Thin Lenses In Contact
- Some Examples On Mirror Equation And Magnification
- Some Examples On Refraction Through Lens
- Some Examples On Tir
- Some Optical Components
- Source Of Displacement Current Modified Ampere Law
- Specific Gravity And Pressure
- Specific Heat Capacity
- Specific Heat Capacity Of Solids Liquids And Gases
- Specific Heat Degrees Of Freedom And Mixing
- Spectral Problems
- Spectral Series Rydberg Formula
- Speed Of Sound Wave Using Bulk Modulus
- Speed Of Wave Using String
- Spherical Capacitor Introduction
- Spot Size Vs Aperture Size
- Spring Force
- Spring Mass System With Problem Solving
- Spring Which Applies Of Force
- Standard Double Slit Experiment
- Standing Waves
- State Of Polarisation Sop
- Steady State Solution Of The Equation
- Stefan Boltzmann Law Of Radiation
- Streamline Flow And Equation Of Continuity
- String Force
- Strings And Pulleys
- Structure Of Atom
- Structure Of The Atoms
- Study Of Free Fall Case
- Studying Physics
- Sum Up Of Whole Lecture
- Summary
- Summary Frings Shift Issues
- Summary Of Alternating Currents
- Summary Of Electric Current And Current Density Lecture 1
- Summary Of Lecture
- Summary Of Lecture 2
- Summary Of Lecture 3
- Summary Of Lecture 4
- Summary Of Lecture 5
- Summary Of The Lecture
- Sun Earth Force
- Superposition Of Two Waves
- Superposition Principle In Calculating Potential At A Point
- Surface Tension And Its Calculation
- Surface Tension At A Molecular Level
- Temperature
- Temperature Dependent Properties
- Temporal Scales And Einstein S Assumptions
- tensile stress and young's modulus
- The Airy Pattern
- The Atomic Nucleus
- The Cavendish Experiment
- The Earth Moon Distance
- The Electric Field Od A Plane Emw Propagating In Free Space Is Given By E
- The First Law
- The Human Eye Structure
- The Long And Short
- The Second Law
- The Secret Of Solar Energy 1
- The Secret Of Solar Energy 2
- The Third Law
- The Time Rate Of Total Orbital Angular Momentum OAM
- Thermal Expansion Of Solids
- Thermal Speed Of Atoms
- Thermal Stress
- Thermodynamics And Electromagnetism
- Thermodynamics Vs Kinetic Theory
- Thomson E M Exoeriment
- Timeline Of The Study In This Domain
- Tips To Solve Work Energy Problems
- Title Sequence
- Toppling
- Toroid
- Torque And Angular Momentum
- Torque And Moment Of Inertia
- Torque On A Current Carrying Loop Placed In Magnetic Field Magnetic Moment
- Total Internal Refraction Tir
- Transducer
- Transistor A A Switch
- Transistor As An Amplifier
- Transmitter
- Transverse Wave
- Triangle Law Of Vector Addition
- Two Coaxial Solenoid With Non Uniform Magnetic Field
- Two Straight Edges Forming A Slit
- Two Types Of Diffraction
- Types Of Errors
- Types Of Forces Acting On A Body
- Types Of Modulation
- Types Of Waves
- Understanding Cells In Series
- Understanding Meter Bridge
- Understanding Potentiometer
- Understanding Series And Parallel Combination Of Resistance
- Unification Of Forces
- Uniform Circular Motion
- Uniformly Magnetized Medium
- Unit Of Charge
- Units Of Pressure And Its Measurement Techniques
- Unpolarised Light
- Unpolarised Light Passing Through A Polariser
- Using Balanced Wheatstone Bridge To Solve Circuits
- Values Of Alpha L For Different Materials
- Vander Waal S Equation Of State
- Variation In Potential
- Variation Of Resistivity With Temperature
- Variation Of Thermodynamic Parameters P,V,T And Work Done In Adiabatic Process
- Variation Of Thermodynamic Parameters P,V,T And Work Done In Isobaric Process
- Variation Of Thermodynamic Parameters P,V,T And Work Done In Isochoric Process
- Variation Of Thermodynamic Parameters P,V,T And Work Done In Isothermal Process
- Vector Area
- Vector Or Cross Product
- Vector Product Angular Velocity Angular Acceleration
- Vector Products
- Velocity Of Matter Waves
- Velocity Selector
- Velocity Time And Acceleration Time Graph Of Periodic Motion
- Venturimeter
- Verification Of De Broglie Hypothesis Using Bragg Diffraction
- Vernier Calipe
- Vibrating Molecule Test Of Bohr Model
- Vibration Of An Air Column In A Pipe
- Viewing Objects And Optical Instruments
- Viscosity
- Viscosity Of Some Common Fluid
- Voltage Current Phase Relation
- Volume Deformation
- Walls
- Wavelength Wavenumber Time Period Energy Frequency
- Waves Introduction Characteristics
- Weighing The Earth
- Weightlessness
- What Are Elastic Materials And Examples
- What Are Fundamental And Derived Units
- What Happens To The Modulated Wave When Passed Through A Rectifier And Envelope Detector Circuit
- What Is A Rigid Body
- What Is A System Of Units And Units Of Measurements
- What Is A Wave Qualitative
- What Is Alternating Current
- What Is An Ac Generator
- What Is Communication
- What Is Energy
- What Is Heat?
- What Is Light
- What Is Magnetic Flux
- What Is Optics
- What Is Physics
- What Is Polarization
- What Is Quantum Optics
- What Is Ray Optics
- What Is Wave Optics
- What S Force
- What We Will Cover
- When The Source Is Off Axis
- Why Ohm S Law Is Good
- Why We Need Different Approaches
- Work And Energy In Rotational Motion
- Work And Frame Of Reference
- Work Done By A Constant Force
- Work Done By A Variable Force
- Work Done By Spring Force
- Work Done In Adiabatic And Isothermal Process In Case Of Both Expansion And Contraction
- Work Done In Isothermal Isobaric Isochoric Process
- Work Energy Theorem And Concept Of Potential Energy
- Work Kinetic Energy Theorem Newton 2Nd Law
- Working Of Transistor
- Young Double Slit Expt
- Young Experimental Setup
- Zener Diode And Voltage Regulation
- Zero Erro
Work Done In Adiabatic And Isothermal Process In Case Of Both Expansion And Contraction
Work done in adiabatic and isothermal process in case of both expansion and contraction
graph TB
A[Work done in adiabatic and isothermal process]
B[Adiabatic Process]
C[Isothermal Process]
D[Expansion]
E[Contraction]
F[Work done in adiabatic expansion]
G[Work done in adiabatic contraction]
H[Work done in isothermal expansion]
I[Work done in isothermal contraction]
A --> B
A --> C
B --> D
B --> E
C --> D
C --> E
D --> F
D --> H
E --> G
E --> I
BETA
