How Eduncle is helpful for Students?
Eduncle.com is a digitized education portal which basically serves as an effective medium between best Faculties and Students. Eduncle.com will serve as the gateway to success for Students who have the requisite talent but due to lack of effective Study Content are not able to prove their knowledge quotients.
We provide guidance to Students aspiring for different Competitive Exams. Our instructors possess several years of experience in teaching. Eduncle.com guide the Students as to how they can improve their performance. The Study Material we provide is well researched by our Experts, which covers exam Syllabus Comprehensively. The innovative approach by us makes the Student more confident at the time of Examination.
Course Structure
The Curriculum Section of this Course covers the following Content :
Lecture 1: Calculus of Single and Multiple Variables
Lecture 2: Multiple Integral
Lecture 3: Partial Derivative
Lecture 4: Jacobian
Lecture 5: Imperfect and Perfect Differentials
Lecture 6: Vectors
Lecture 7: Fourier Series
Lecture 8: Taylorâ€™s Theorem
Lecture 1: Divergence
Lecture 2: Stokeâ€™s Theorem
Lecture 3: Greenâ€™s Theorem
Lecture 4: Linear Differential Equations with Constant Coefficients
Lecture 5: Matrix
Lecture 6: Determinants
Lecture 7: Algebra of Complex Number
Lecture 1: Introduction
Lecture 2: Newtonâ€™s Laws of Motion
Lecture 3: Frame of Reference
Lecture 4: Uniform Circular Motion
Lecture 5: Motion of Bodies in Contact
Lecture 6: Friction and Frictional Force
Lecture 7: Computation of Velocity and Acceleration
Lecture 8: Spherical Polar Coordinates
Lecture 9: Circular Cylindrical or Cylindrical Polar Coordinates
Lecture 10: Fictitious or Pseudo Force
Lecture 11: Centrifugal Force
Lecture 12: Uniformly Rotating Frames
Lecture 13: Free Fall of a body on Earthâ€™s Surface
Lecture 14: Foucaultâ€™s Pendulum the Period of Precession
Lecture 15: Motion in a central Force Field
Lecture 16: General Features of The Motion
Lecture 17: Motion in Arbitrary Potential Field
Lecture 18: Motion in an inverse-Square law Force Field
Lecture 19: The Kepler Problem : Inverse Square Law
Lecture 20: Escape Velocity
Lecture 21: Conservative and Non-Conservative Forces
Lecture 1: System of Particle
Lecture 2: Centre of Mass
Lecture 3: Motion of Centre of Mass
Lecture 4: Conservation of Linear Momentum
Lecture 5: Centre of Mass-Frame of Reference
Lecture 6: Conservation of Angular Momentum
Lecture 7: Law of Conservation of Linear Momentum
Lecture 8: Law of Conservation of Angular Momentum
Lecture 9: Conservation of Energy
Lecture 10: Conservative Force and Potential Energy
Lecture 11: Motion of a system with Variable Mass
Lecture 12: Collisions
Lecture 13: Types of Collision
Lecture 14: Rigid Body
Lecture 15: Some Physical Quantity in Rotational Motion
Lecture 16: Analog Between Translatory Motion and Rotatory Motion
Lecture 17: Parallel and Perpendicular Axes Theorem
Lecture 18: Moment of Inertia of Some Uniform Bodies
Lecture 19: Angular Momentum and Inertia Tensor
Lecture 20: Principal Axis-Principal Moments of Inertia
Lecture 21: Fluid and Ideal Fluid
Lecture 22: Non-viscous Fluid and Incompressible Fluid
Lecture 23: Streamline and Its properties
Lecture 24: Stream Line Tube
Lecture 25: Streamline flow and Turbulent flow
Lecture 26: Viscous Force, Viscosity and Coefficient of Viscosity
Lecture 27: Velocity of efflux and Torricellie Theorem
Lecture 28: Stokeâ€™s Law
Lecture 29: Pascalâ€™s law
Lecture 30: Floatation
Lecture 31: Archimedeâ€™s Principle
Lecture 32: Equation of Continuity
Lecture 33: Eulerâ€™s equation
Lecture 34: Bernoulliâ€™s Theorem
Lecture 1: Simple Harmonic Oscillator
Lecture 2: Superposition of One, Two or More Simple Harmonic Oscillators
Lecture 3: Lissajous Figures
Lecture 4: Free, Damped, Forced and Maintained Oscillations
Lecture 5: Resonance
Lecture 6: Waves
Lecture 7: Other Factors-Group Velocity and Phase Velocity
Lecture 8: Sound and Sound Waves
Lecture 9: Doppler Effect
Lecture 1: Fermet Principal
Lecture 2: Mirror and Types or Mirror
Lecture 3: Lens
Lecture 4: Principle of Superposition of Light Waves
Lecture 5: Interference of Light
Lecture 6: Youngâ€™s Doubles Slit Experiment
Lecture 7: Fresnelâ€™s Bi-Prism Experiment
Lecture 8: Retardation
Lecture 9: Diffraction
Lecture 10: Rayleigh Criterion & Resolving Power
Lecture 11: Diffraction Grating
Lecture 12: Polarization of Light
Lecture 13: Polarisation by Reflection
Lecture 14: Double Refraction
Lecture 15: Polarodis
Lecture 16: Optical Rotation
Lecture 1: Electricity
Lecture 2: Coulombâ€™s Law
Lecture 3: Electric Field
Lecture 4: Gauss's Law
Lecture 5: Electric Potential
Lecture 6: Boundary Conditions
Lecture 7: Laplaceâ€™s Equation
Lecture 8: Conductors
Lecture 9: Capacitor and Capacitance
Lecture 10: Dielectrics
Lecture 11: Polarization
Lecture 12: Electrostatic energy
Lecture 1: Biot-Savart Law
Lecture 2: Ampere's Law
Lecture 3: Electro Magnetic Induction
Lecture 4: Faraday's Law of Electromagnetic Induction
Lecture 5: Self Inductance
Lecture 6: Mutual Inductance
Lecture 7: Transformer
Lecture 8: Electric Current
Lecture 9: Alternating Current
Lecture 10: Maxwell's Postulate : Displacement Current
Lecture 11: Plane electromagnetic waves
Lecture 1: Electromagnetic Energy, Poynting Theorem
Lecture 2: Reflection and Refraction of E.M. Wave
Lecture 3: Reflection Coefficient and Transmission Coefficient
Lecture 4: Motion of Charge Particles in E.M. Field
Lecture 5: Kinetic Theory of Gases
Lecture 6: Maxwell's Velocity or Speed Distribution Law : Deduction
Lecture 7: Specific Heat & Vandar Waal Gas
Lecture 1: Laws of thermodynamics Zeroth law, First Law and Its Consequence
Lecture 2: Isothermal and Adiabatic Processes, Reversible, Irreversible Processes
Lecture 3: Maxwellâ€™s Thermodynamic Relations Thermodynamic Potentials
Lecture 4: Phase Transitions and Clausius-Clapyron Equation
Lecture 5: Charge Carriers in Semiconductors
Lecture 6: Intrinsic and Extrinsic Materials
Lecture 7: Law of Mass Action
Lecture 8: Impurity Compensation
Lecture 9: The Fermi-Dirac Distribution Function and Fermi Level
Lecture 10: Maxwell - Boltzmann distribution
Lecture 11: The Bose - Einstein distribution
Lecture 1: Special theory of Relativity
Lecture 2: Structure of Atomic Nucleus, Binding Energy
Lecture 3: Radioactivity and its Applications
Lecture 1: Black Body Radiation
Lecture 2: Photo Electric Effect
Lecture 3: Compton Effect
Lecture 4: Bohr atomic Model, X-rays & wave-Particle Duality
Lecture 5: Schrodinger Equation Reflection and Transmission at a Step Potential
Lecture 6: Pauli Exclusion Principle
Lecture 1: Crystal Structure, Bravais Lattices and Basis Miller Indices
Lecture 2: X-Ray Diffraction, Einstein and Debye Theory of Specific Heat
Lecture 3: Origin of Energy Bands. Concept of Holes and Effective Mass
Lecture 1: P-N Junctions, Transistor Circuits in CB, CE, CC Modes
Lecture 2: Operational Amplifiers
Lecture 1: Binary Addition & Subtraction
Lecture 2: Conversion From One to Another System
Lecture 3: Boolean Identities
Eduncle.com is an educational market place where the knowledge seekers can quench their thirst for quality study material for almost any type of competitive exams like UGC-NET, IIT-JAM, IBPS, SSC etc., effortlessly and quickly.
Average Rating
Detail Rating
Suneet