TS 2nd Year Interphysics Physics Syllabus 2024-25: Click here for more details


TS Inter 2nd Year Physics Syllabus 2024-25: Download and Overview

Physics syllabus is essential for second year students of Science stream as it plays an important role in both medical and engineering fields. Entrance exams often include a section dedicated to Physics, making it essential for students to understand the subject thoroughly.

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This article provides the Telangana Board Class 12 Physics syllabus for the academic year 2024-25. Students are encouraged to review the syllabus to ensure comprehensive knowledge and excel in their Physics board exams in 2025. For better understanding, a complete academic calendar is included in PDF. Be sure to study this information carefully during your review to cover all topics effectively.

TS 2nd Year Physics Syllabus 2024-25

The Telangana Board 2nd Year Physics syllabus for the 2025 board exams is given below. Please refer to the table describing all the topics to be covered during the academic year 2024-25.

CHAPTER – 1: WAVES
1.1 Introduction
1.2 Transverse and longitudinal waves
1.3 Displacement ratio in a progressive wave
1.4 Speed ​​of a traveling wave
1.5 The principle of superposition of waves.
1.6 Wave reflection
1.7 beats
1.8 Doppler effect

CHAPTER 2: RAY OPTICS AND OPTICAL INSTRUMENTS
2.1 Introduction
2.2 Reflection of light by spherical mirrors
2.3 Refraction
2.4 Total Internal Reflection
2.5 Refraction on Spherical Surfaces and Lenses.
2.6 Refraction through a prism
2.7 Dispersion through a prism
2.8 Some natural phenomena due to sunlight
2.9 Optical instruments
EAPSET classes
EAPSET-1 TEST

CHAPTER – 3: WAVE OPTICS
3.1 Introduction
3.2 Huygens principle
3.3 Refraction and reflection of plane waves using Huygens’ principle
3.4 Coherent and incoherent sum of waves
3.5 Interference of light waves and Young’s experiment
3.6 Diffraction
3.7 Polarization

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CHAPTER – 4: ELECTRICAL CHARGES AND FIELDS
4.1 Introduction
4.2 Electrical Loads
4.3 Conductors and Insulators
4.4 Induction charging
4.5 Basic properties of electric charge
4.6 Coulomb’s Law
4.7 Forces between multiple loads
4.8 Electric field
4.9 Electric field lines
4.10 Electrical flow
4.11 Electric dipole
4.12 Dipole in a uniform external field
4.13 Continuous load distribution
4.14 Gauss’s Law
4.15 Application of Gauss’s law
EAPSET classes
EAPSET-2 TEST
Unit test 1

CHAPTER – 5: ELECTROSTATIC POTENTIAL AND CAPACITANCE
5.1 Introduction
5.2 Electrostatic potential
5.3 Potential due to a points charge
5.4 Potential due to an electric dipole
5.5 Potential for a Collection System
5.6 Equipotential surfaces
5.7 Potential energy of a system of charges
5.8 Potential energy in an external field
5.9 Electrostatics of conductors
5.10 Dielectrics and Polarization
5.11 Capacitors and capacitance
5.12 The parallel plate capacitor
5.13 Effect of dielectric on capacitance
5.14 Capacitor combination
5.15 Energy stored in a capacitor
5.16 Van de Graaff generator

CHAPTER – 6: CURRENT ELECTRICITY
6.1 Introduction
6.2 Electric current
6.3 Electric current in conductors
6.4 Ohm’s Law
6.5 Drift electrons and origin of resistivity
6.6 Limitations of Ohm’s Law
6.7 Resistivity of various materials
6.8 Dependence of resistivity on temperature
6.9 Electrical Energy, Power
6.10 Combination of resistors: series and parallel
6.11 Cells, emf, internal resistance
6.12 Cells in series and parallel
6.13 Kirchhoff’s Laws
6.14 Wheatstone Bridge
6.15 meter bridge
6.16 Potentiometer
EAPSET classes
EAPSET-3 TEST
Unit test -2

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CHAPTER – 7: MOVING CHARGES AND MAGNETISM
7.1 Introduction
7.2 Magnetic force
7.3 Movement in a magnetic field
7.4 Motion in combined electric and magnetic fields
7.5 Magnetic field due to a current element, Biot-Savart law
7.6 Magnetic field on the axis of a circular current loop
7.7 Ampere’s Circuit Law
7.8 The solenoid and the toroid
7.9 Force between two parallel currents, the ampere (unit)
7.10 Torque in the current circuit, magnetic dipole
7.11 The moving coil galvanometer

CHAPTER – 8: MAGNETISM AND MATTER
8.1 Introduction
8.2 The magnetic bar
8.3 Magnetism and Gauss’s law
8.4 The magnetism of the Earth
8.5 Magnetization and magnetic intensity
8.6 Magnetic properties of materials
8.7 Magnets and electromagnets

CHAPTER – 9: ELECTROMAGNETIC INDUCTION
9.1 Introduction
9.2 Faraday and Henry’s experiments
9.3 Magnetic flux
9.4 Faraday’s law of induction
9.5 Lenz’s law and conservation of energy
9.6 Electromotive force in motion
9.7 Energy consideration: a quantitative study
9.8 Eddy currents
9.9 Inductance
9.10 AC Generator
EAPSET classes
EAPSET TEST- 4
TEST UNIT 3

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PRACTICES:
5. Subway bridge

CHAPTER – 10: ALTERNATING CURRENT:
10.1 Introduction
10.2 AC voltage applied to a resistor
10.3 Representation of AC current and voltage using rotating vectors: phasors
10.4 AC voltage applied to an inductor
10.5 AC voltage applied to a capacitor
10.6 AC voltage applied to a series LCR circuit
10.7 Power in an AC Circuit: The Power Factor
10.8 LC Oscillations
10.9 Transformers
EAMCET class

CHAPTER – 11: ELECTROMAGNETIC WAVES
11.1 Introduction
11.2 Displacement current
11.3 Electromagnetic waves
11.4 Electromagnetic spectrum
EAPSET classes
EAPSET TEST -5

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CHAPTER – 12: DUAL NATURE OF RADIATION AND MATTER
12.1 Introduction
12.2 Electron emission
12.3 Photoelectric effect
12.4 Experimental study of the photoelectric effect
12.5 Photoelectric effect and wave theory of light
12.6 Einstein’s photoelectric equation: radiation energy quantum
12.7 Particle nature of light: the photon
12.8 Wave nature of matter
12.9 Davisson and Germer experiment

CHAPTER – 13: ATOMS
13.1 Introduction
13.2 Alpha particle scattering and the nuclear model of the Rutherford atom
13.3 Atomic spectra
13.4 Bohr model of the hydrogen atom
13.5 Line Spectra of the Hydrogen Atom
13.6 De Broglie’s explanation of Bohr’s second quantization postulate
EAPSET classes
SEMESTER EXAMS: 11-18-2024 TO 11-23-2024

CHAPTER – 14: CORE
14.1 Introduction
14.2 Atomic masses and composition of the nucleus
14.3 Core size
14.4 Mass energy and nuclear binding energy
14.5 Nuclear force
14.6 Radioactivity
14.7 Nuclear Energy

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CHAPTER – 15: SEMICONDUCTOR ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS
15.1 Introduction
15.2 Classification of metals, conductors and semiconductors
15.3 Intrinsic semiconductor
15.4 Extrinsic Semiconductor
15.5 p–n junction
15.6 Semiconductor diode
15.7 Application of junction diode as a rectifier
15.8 Special Purpose Pn Junction Diodes
15.9 Junction Transistor
15.10 Digital electronics and logic gates
15.11 Integrated circuits

CHAPTER – 16: COMMUNICATION SYSTEMS
16.1 Introduction
16.2 Elements of the communication system.
16.3 Basic terminology used in electronic communication systems
16.4 Signal bandwidth
16.5 Bandwidth of the transmission medium
16.6 Propagation of electromagnetic waves
16.7 Modulation and its need
16.8 Amplitude Modulation
16.9 Production of amplitude modulated waves
16.10 Amplitude Modulated Wave Detection
EAPSET classes
EAPSET TEST–6
UNIT TEST–4

PRACTICES:
8. Tangent galvanometer
9. PN junction diode
10. Characteristics of transistors

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