Grade VI

Grade

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Grade VI

Chemistry

Mathematics

Biology

Physics

TK. 12,000

Tk. 9,000/ month

Tk. 12,000

Tk. 10,000/ month

Chemistry Mathematics Biology Physics

Overview

Explore the principles that govern motion, matter, energy, and electricity.

The Grade VI Physics syllabus introduces fundamental concepts across various branches of physics. The chart below illustrates the relative emphasis on key learning outcomes:

Distinguish between scalar and vector quantities and apply them in context
Measure and calculate speed, velocity, and acceleration in various motion scenarios
Understand how forces affect motion, and apply Newton’s laws using diagrams and formulas
Explore mass, weight, and density, and calculate each using standard equations
Apply the principles of energy conservation and calculate work done and power
Identify solids, liquids, and gases based on their particle structures and behaviour
Understand melting, boiling, and evaporation through kinetic particle theory
Investigate light reflection, refraction, dispersion, and lens behaviour
Know the electromagnetic spectrum and the characteristics of its regions
Learn about magnetic fields, permanent magnets, and simple magnetic interactions
Understand electric charge, current, potential difference, and circuit behaviour
Construct and analyse series and parallel circuits using circuit diagrams

Learning Area Coverage

The Grade VI Physics syllabus introduces fundamental concepts across various branches of physics. The chart below illustrates the relative emphasis on key learning outcomes:

Assessment and Practice

Each unit concludes with a targeted test or consolidation session, followed by structured revision and timed practice. Mid-year and end-of-year mock exams reinforce skills in formula application, practical reasoning, and conceptual linkage. Emphasis is placed on strengthening confidence in calculations, graphical interpretation, and multiple representations of physical phenomena.

Core Learning Areas

This structured plan covers core physics topics from motion and forces to electricity and magnetism, incorporating regular tests and consolidation weeks for strong conceptual understanding.

Motion & Forces

Scalars & Vectors
Speed, Velocity, Acceleration
Mass, Weight, Density
Types of Forces, Force Diagrams
Newton’s Laws (1st, 3rd)
Resultant Force, F = ma

Energy & Matter

Forms of Energy, Energy Stores
Work Done, Power, Conservation of Energy
Particle Model (Solid, Liquid, Gas)
Melting, Boiling, Condensation, Evaporation
Thermal Processes (Cooling)

Electricity & Magnetism

Magnetic Poles & Field Lines
Electrostatic Charge, Conductors/Insulators
Electric Current, Potential Difference (Voltage)
Resistance, Ohm’s Law
Series & Parallel Circuits (current, voltage rules)
Circuit Diagrams & Components

Module Timeline

Weeks (1–3)

Topic: Motion and Measurement

Week 1

Scalars and vectors; physical quantities; types of motion

Week 2

Speed and velocity; distance-time calculations and average speed

Week 3

Acceleration and deceleration; formula use with a = Δv/Δt

End of Week 3

Test on Motion

Weeks (4–5)

Topic: Mass, Weight, and Density

Week 4

Mass vs. weight; gravitational field strength; g = W/m

Week 5

Density = mass/volume; practical methods for solids and liquids

End of Week 5

Test on Mass, Weight, and Density

Weeks (6–8)

Topic: Forces and Newton’s Laws

Week 6

Types of forces and their effects; force diagrams

Week 7

Balanced and unbalanced forces; Newton’s First and Third Laws

Week 8

Resultant force and F = ma applications

End of Week 8

Test on Forces

Week (9)

Topic: Consolidation 1

Apply knowledge from Weeks 1–8 through diagrams and word problems

Comprehensive Mini-Exam 1

Weeks (10–12)

Topic: Energy, Work and Power

Week 10

Forms of energy and energy stores

Week 11

Work done = force × distance; W = Fd

Week 12

Power = work/time; introduction to energy conservation

End of Week 12

Test on Energy and Work

Weeks (13–15)

Topic: States of Matter and Thermal Processes

Week 13

Particle model of solids, liquids, gases

Week 14

Melting, boiling and condensation — particle explanations

Week 15

Evaporation, cooling, and factors that affect rate

End of Week 15

Test on States and Thermal Change

Week (16)

Topic: Consolidation 2

Problem sets on energy, states of matter, and pressure concepts

Weeks (17–19)

Topic: Light and Waves

Week 17

Reflection, angle of incidence/reflection, and plane mirror image properties

Week 18

Refraction and dispersion using prisms; colours of the spectrum

Week 19

Lenses — converging and diverging; parallel ray diagrams

End of Week 19

Test on Light

Weeks (20–21)

Topic: Electromagnetic Spectrum

Week 20

EM spectrum regions, uses and risks, wavelength-frequency trends

Week 21

Speed of EM waves in vacuum and air

End of Week 21

Test on Electromagnetic Waves

Week (22)

Topic: Consolidation 3

Mixed problems from Waves and EM spectrum

Week (23)

Topic: Revision

Review from Motion to Electromagnetic Spectrum

Week 24

Revision & Practice

Reinforce learning from Weeks 1–23 with problem-solving sessions and mini reviews

Weeks (25–27)

Topic: Magnetism

Week 25

Magnetic poles, attraction and repulsion

Week 26

Magnetic field lines, compass plotting, strength and direction

Week 27

Temporary vs permanent magnets; applications of magnets

End of Week 27

Test on Magnetism

Weeks (28–30)

Topic: Electrostatics and Electric Charge

Week 28

Charging by friction; electron transfer; conductors and insulators

Week 29

Electric fields and patterns; direction of force

Week 30

Applications and diagrams of electrostatic effects

End of Week 30

Test on Electrostatics

Week (31)

Topic: Consolidation 4

Apply electricity and magnetism through circuit-based puzzles

Weeks 32–34

Current Electricity and Resistance

Week 32

Current = charge/time; conventional vs electron flow

Week 33

Voltage and EMF definitions; V = W/Q and E = W/Q

Week 34

Resistance = V/I; Ohm’s Law; R ∝ length, 1/area

End of Week 34

Test on Current and Resistance

Weeks (35–36)

Topic: Electric Circuits

Week 35

Circuit diagrams and component behaviours

Week 36

Series and parallel rules for current and voltage

End of Week 36

Test on Circuits

Week (37)

Topic: Consolidation 5

Practical application of formulas in electricity

Weeks (38–44)

Topic: Spiral Revision and Exam Preparation

Week 38

Motion and Forces

Week 39

Energy, Work and Power

Week 40

Waves and Light

Week 41

Magnetism and Electrostatics

Week 42

Current Electricity and Circuits

Week 43

Timed drills and MCQ review

Week 44

Extended response practice and test strategies

Week (45–47)

Topic: Mock Exam Practice

Week 45

Mock Phase 1 – Multiple Choice and Short Answer

Week 46

Mock Phase 2 – Structured Questions

Week 47

Feedback, corrections, and target-focused revision