Physics (O Levels)
O Levels
Tk. 5,000
Tk. 4,500 / month
Overview
A complete foundation in physical science, built for exam success and real-world application.
The Grade IX/X Physics syllabus provides a comprehensive foundation in physical science, crucial for O-Level exam success. The chart below illustrates the distribution of concepts across major topics:
Analyse motion using graphs, equations, and vector breakdowns- Understand forces, momentum, pressure, and energy conservation
- Explore thermal physics including particle theory, heat transfer, and latent heat
- Investigate wave behaviour, light, sound, lenses, and the electromagnetic spectrum
- Master electricity and magnetism, from basic circuits to power calculations
- Discover the basics of nuclear physics and explore space science
Learning Area Coverage
The Grade IX/X Physics syllabus provides a comprehensive foundation in physical science, crucial for O-Level exam success. The chart below illustrates the distribution of concepts across major topics:
Assessment and Practice
The course includes frequent topic-end assessments and 13 comprehensive exams spread throughout the academic year. Students also complete midterm and final mock exams based on the full O Level format to ensure readiness and retention.
Core Learning Areas
This comprehensive plan covers the entire O Level Physics syllabus, from motion and forces to nuclear and space physics, with consistent assessments and extensive exam practice to ensure readiness.
Motion, Forces & Energy
- Measurements (length, time, volume, scalar/vector)
- Motion (speed, velocity, acceleration, graphs, free fall)
- Mass, Weight, Density, Newton’s Laws
- Friction, Hooke’s Law, Circular Motion
- Moments, Centre of Gravity, Stability
- Momentum, Impulse, Conservation of Momentum
- Energy (KE, GPE, Stores, Transfers), Work, Power, Efficiency
Thermal Physics & Waves
- States of Matter & Kinetic Particle Theory
- Gas Laws (Pressure–Temp, Volume–Temp, Boyle’s Law)
- Thermal Expansion, Specific Heat Capacity, Latent Heat
- Conduction, Convection, Radiation
- Wave Properties (Transverse/Longitudinal), Reflection, Refraction, Diffraction
- Light (Lenses, Dispersion), Electromagnetic Spectrum
- Sound (Nature, Oscilloscopes, Speed, Ultrasound)
Electricity, Magnetism & Modern Physics
- Magnetic Poles & Fields, Electromagnets
- Electric Charge, Electrostatics, Conductors/Insulators
- Current, EMF, Potential Difference, Resistance, Ohm’s Law
- Circuit Components & Diagrams, Series/Parallel Circuits
- Electrical Energy, Power, Cost, Safety
- Nuclear Physics (Atomic Model, Radiation, Decay, Fission/Fusion, Half-life)
- Space Physics (Orbits, Solar System, Stars, Redshift, Big Bang)
Module Timeline
Weeks (1–17)
Topic: Motion, Forces, and Energy
Week 1
Measurement of length, time, volume, and the concept of scalar and vector quantities
Week 2
Resultant vectors and graphical methods
Week 3
Speed, velocity, average speed, acceleration
Week 4
Uniform and non-uniform acceleration; gradient and area under graphs
End of Week 4
Comprehensive Exam 1 (Covers Weeks 1–4)
Week 5
Distance-time and speed-time graph analysis
Week 6
Free fall and acceleration due to gravity
Week 7
Mass vs. weight; inertia and gravitational field strength
Week 8
Determining density (solid, liquid, irregular) and related calculations
End of Week 8
Comprehensive Exam 2 (Covers Weeks 1–8)
Week 9
Types of forces; Newton’s laws; resultant force calculations
Week 10
Friction, drag, air resistance, terminal velocity, stopping distances
Week 11
Elastic deformation, Hooke’s law, spring constant, load-extension graphs
Week 12
Circular motion and its qualitative factors
End of Week 12
Comprehensive Exam 3 (Covers Weeks 5–12)
Week 13
Moments, principle of moments, verifying experiments
Week 14
Centre of gravity and stability
Week 15
Momentum, impulse, conservation of momentum
Week 16
Energy stores and transfers, conservation, KE and GPE equations
Week 17
Work, power, efficiency, renewable and non-renewable energy sources
End of Week 17
Comprehensive Exam 4 (Covers Weeks 9–17)
Weeks (18–23)
Topic: Thermal Physics
Week 18
States of matter and kinetic particle theory
Week 19
Pressure-temperature and volume-temperature relationships, p₁V₁ = p₂V₂
Week 20
Thermal expansion, thermometer structure, Kelvin-Celsius conversion
Week 21
Specific heat capacity; energy and temperature relation; experimental methods
End of Week 21
Comprehensive Exam 5 (Covers Weeks 18–21)
Week 22
Latent heat, melting/boiling, evaporation vs boiling, cooling via evaporation
Week 23
Conduction, convection, radiation, and practical applications
End of Week 23
Comprehensive Exam 6 (Covers Weeks 18–23)
Week (24)
Topic: Revision & Practice
End of Week 24
Midterm Exam — covers all contents from Weeks 1 to 23
Weeks (25–32)
Topic: Waves
Week 25
Wave basics
Week 26
Wave behavior
Week 27
Reflection of light, laws, mirror images, experimental setup
Week 28
Refraction, refractive index, critical angle, total internal reflection
End of Week 28
Comprehensive Exam 7 (Covers Weeks 25–28)
Week 29
Lenses
Week 30
Eye defects, correction with lenses, ray diagram analysis
Week 31
Dispersion of light and visible spectrum
Week 32
EM spectrum, wave types, uses, dangers, speed of EM waves
End of Week 32
Comprehensive Exam 8 (Covers Weeks 25–32)
Weeks (33–36)
Topic: Sound and Electromagnetic Spectrum
Week 33
Nature of sound, oscilloscopes, frequency range, echoes
Week 34
Speed of sound in different media, ultrasound, applications
Week 35
Magnetic poles and fields, permanent vs temporary magnets, plotting fields
Week 36
Magnetic field interactions, magnetic force lines, uses of electromagnets
End of Week 36
Comprehensive Exam 9 (Covers Weeks 33–36)
Weeks (37–44)
Topic: Electricity and Magnetism
Week 37
Electric charge, field lines, conductors vs insulators, electrostatics
Week 38
Current, charge, I = Q/t, electron flow, measuring current
Week 39
EMF and potential difference, voltmeters, series sources
Week 40
Resistance, Ohm’s Law, current-voltage graphs, temperature effects
End of Week 40
Comprehensive Exam 10 (Covers Weeks 37–40)
Week 41
Circuit components and diagrams, series and parallel laws
Week 42
Calculating resistance in series and parallel, potential dividers
Week 43
Thermistors, LDRs, variable resistors, input sensors
Week 44
Electrical energy, power, cost calculation, safety and fuse logic
End of Week 44
Comprehensive Exam 11 (Covers Weeks 37–44)
Weeks (45–46)
Topic: Nuclear Physics
Week 45
Atomic model, isotopes, alpha scattering, radiation types and detection
Week 46
Radioactive decay, equations, fission/fusion, half-life, safety procedures
End of Week 46
Comprehensive Exam 12 (Covers Weeks 45–46)
Week (47)
Topic: Space Physics
Earth, Moon, and Sun motion; orbits, gravitational strength, orbital speed
Solar system structure, galaxy, life cycle of stars, redshift, Big Bang theory
End of Week 47
Comprehensive Exam 13 (Covers Weeks 45–47)
Week (48)
Topic: Full syllabus practice, timed papers, corrections and final brush-ups
End of Week 48
Comprehensive Mock Tests with Exam-style Questions — full syllabus