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TN State Board 12th Physics Tuition

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What will you learn in this course?
    • Emphasis on basic conceptual understanding of the content.
    • Emphasis on use of SI units, symbols, nomenclature of physical quantities and formulations as per international standards.
    • Providing logical sequencing of units of the subject matter and proper placement of concepts with their linkage for better learning.
    • Reducing the curriculum load by eliminating overlapping of concepts/content within the discipline and other disciplines.
    • Promotion of process-skills, problem-solving abilities and applications of Physics concepts.
    • Framework curriculum as per SCERT Class 12th Physics syllabus
₹ 12000
Course Teacher
Course Information
Category
Duration
Hours
Price
₹ 12000

* Exclusive of 18% GST

Includes
    • Assignments every week
    • 200+ MCQs
    • Courseware prepared by experts
    • Assessments to give you the level of improvement

Physics tuition for class 12th will assist students in bettering their abilities to not just write their examinations but also pursue it as a future profession. Students can now get class 12th physics tuition online through LITAA, guaranteeing they receive the appropriate amount of attention for the subject. Physics is a fundamental component of the 12th grade science courses taught in Tamilnadu State Board. We have instructors that can guide the topic regardless of which board they are from.

 

LITAA Academy has created the perfect program to meet the demands of SCERT class 12th Tamilnadu State Board students for Physics. This is a Tamilnadu State Board online class for Class XII students. The course includes live lectures from skilled faculty members. The study guide and study materials, compiled by subject experts and addressing SCERT solutions Tamilnadu State Board question banks for class 12th physics, are available on the site. The materials will be sent to you in digital format.

Course Features

120 hours of Live Classes
200+ MCQ Test Series
Live Doubt Resolution
Individual Attention

Course Structure

Units Topics
I Electrostatics
II Current Electricity
III Effects of Electric Current
IV Electromagnetic Induction and Alternating Current
V Electromagnetic Waves and Wave Optics
VI Atomic Physics
VII Dual Nature of Radiation and Matter –Relativity
VIII Nuclear Physics
IX Semiconductor Devices and Their Applications
X Communication Systems

Course Lessons

Introduction of charges; Coulomb’s law; Electric field; Electric dipole; Electrostatic potential; Electrostatic potential energy; Electric flux; Gauss law and its applications; Electrostatic properties of conductors and insulators; Free and bound charges inside the conductor; Dielectrics; Electric polarization; Capacitance and capacitors Parallel plate capacitor with and without dielectrics; Capacitors in parallel and series; Distribution of charges on a conductor and action of points; Lightning arresters; Van de Graff generator

Electric current; Ohm’s law; Resistance in series and parallel, Color code for carbon resistors; Temperature dependence of resistance; Potential difference and EMF of a cell; Cells in series and in parallel; Kirchoff’s laws; Wheatstone bridge; Meter bridge; Potentiometer; Electric energy; electric power; Heating effect of electric current, Joule’s law, Thermoelectric effect, Seebeck effect; Peltier effect; Thomson effect

Magnetic effects of current; Biot-Savart law; Ampere circuital law; Lorentz force; Force on a moving charge in a magnetic field; Cyclotron; Force on a current-carrying conductor placed in a magnetic field; Torque on a current loop; Moving coil galvanometer; Earth’s magnetic field and magnetic elements; Coulomb inverse square law of magnetism; Magnetic dipole; Magnetic induction at a point along the axial line and equatorial line of the bar magnet; Torque acting on a bar magnet in a uniform magnetic field; Tangent law and Tangent galvanometer; Magnetic properties; Classification of magnetic materials; Hysteresis

Magnetic flux; Electromagnetic induction; Faraday’s law; Lenz’s law; Flemming’s right-hand rule; Eddy current; Self-induction; Methods of producing induced emf; AC generator; Transformer; Alternating current; AC voltage applied to a resistor; inductor; capacitor; LCR circuit; Q factor; Power in an AC circuit; Power factor; Oscillation in an LC circuit

Displacement current; Electromagnetic waves; Electromagnetic spectrum (Radio waves-MicrowavesInfrared Waves- Visible light-Ultraviolet rays-X rays gamma rays); Types of the spectrum; Fraunhofer lines

Ray Optics - Reflection; laws of reflection; Spherical mirrors; Mirror formula; Refraction; laws of refraction; Lens makers formula; Magnification power; Total internal reflection; Refraction and dispersion of light through a prism

Wave optics - Huygen’s Principle; Reflection; Refraction of plane waves at a plane surface using wavefront; Young’s double-slit experiment; Diffraction: Diffraction due to single slit; Polarization: Plane polarized light; Brewster’s law; Nicol prism; Malus law; Polaroids; Scattering - Rayleigh, Raman scattering; Maser and Laser; Optical instruments, Microscope, Astronomical telescope

Dual nature of radiation and matter; Photoelectric effect; Laws of photoelectric emission; Einstein’s photoelectric equation; Photocell and application; Matter waves; Wave nature of Matter; De Broglie equation; Electron microscope; Davisson and Germer experiment; X rays

 

Atoms and Nuclei

 

Atoms – Early atom models; Alpha particle scattering experiments; Rutherford model; Bohr’s atom model; Atomic spectra

Nuclei - Composition of Nuclei, Size and density of nucleus; Isotopes, isobars, and isotones; Mass defect, binding energy; Nuclear forces; Radioactivity; α, β and γ decay; Laws of radioactive decay; Nuclear Fission, fusion

Classification of metals, insulators, and semiconductors; Types of semiconductors; Diodes; Breakdown mechanism, Zener diode; Light Emitting Diode; Photodiode; Solar cell; Transistors; Transistor configuration; Transistor action; Common emitter; Transistor characteristics; Transistor as an amplifier; Transistor as an oscillator; Digital electronics; Digital and analog signals Integrated chips; Logic gates; Boolean algebra

Elements of the communication system; Bandwidth; Modulation; Antenna; Propagation of electromagnetic waves; Satellite communication; Optical fiber communication; Radar; Internet; Mobile phone; Global Positioning System

Physics as a basic building block for science, engineering, and technology; Nanotechnology; Robotics; Physics in biology

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