Science-VI
Science fosters curiosity and helps students explore the natural world through observation, experimentation, and evidence-based reasoning. Learners begin to understand how science impacts daily life and the environment.
Course Topic
A1_The Journey of Scientific Discovery
A2_Essential Tools for Young Scientists
A3_Safety First: Gear for a Secure Science Lab
B1_Control vs. Experiment: Spot the Difference
B2_Variables Unlocked: Independent and Dependent Factors
B3_Framing the Perfect Experimental Question
B4_Hands-on Science: Plant Growth Experiment
B5_Investigating Diffusion: A Practical Approach
B6_Exploring Evaporation Through Experiments
C1_Breaking Down the Engineering Design Process
C2_Testing and Improving Engineering Solutions
C3_Comparing Results: Engineering Data in Action
C4_Engineering the Future: Mission to the Moon!
D1_Density
D3_Particle Theory Explained
D4_Transformations of Matter: States in Motion
D5_Processes Driving State Changes
E1_Atoms and Elements: The Science of the Small
E2_Decoding Chemical Formulas and Models
E3_Matching Models: Formulas Meet Structures
E4_What’s Inside a Molecule? Atomic Composition Explained
E5_Sorting Substances: Element and Compounds
E6_Mixtures: Combining Without Changing
E7_Elements, Compounds and Mixtures: What’s the Difference?
E8_Metals vs. Non-Metals: Properties and Uses
F1_Reactants and Products: The Recipe of Chemistry
F2_Counting Atoms in Reactions Made Easy
F3_Measuring Reactants and Products Accurately
F4_Energy in Reactions: Absorbing and Releasing Heat
F5_Physical vs. Chemical Changes: Spot the Difference
F6_Chemistry at Work: The Art of Soapmaking
F7_Food flavors: Chemistry in the Kitchen
F8_Synthetic Materials
G1_Calculating Speed, Distance and Time
G2_Detecting Acceleration: Fast or Faster?
G3_Mass Matters: How Weight Influences Motion
G4_Newton’s Third Law: Action vs. Reaction
G6_Collisions and Car Safety: Physics in the Real World
H1_Understanding Energy and Its Forms
H2_The Law of Energy Conservation
H3_Tracking Gravitational Potential Energy
H4_Kinetic Energy Patterns in Tables and Graphs
H5_Roller Coasters and Bikes: Fun with Energy Transformations
I1_Electricity Essentials
I2_Exploring Magnetism
I3_Electric and Magnetic Forces in Action
I4_What Makes Magnets Strong? Factors and Uses
I5_Comparing Magnetic Forces: Strengths and Limits
J1_Predicting Heat Flow and Temperature Changes
J2_Temperature, Mass and Thermal Energy Explained
J3_Comparing Heat Transfers: Conduction, Convection and Radiation
K1_Particles on the Move: Changes of State
K2_Particle Motion, Temperature and Pressure Links
K3_Energy Types and Transformations
L1_Transverse vs. Longitudinal Waves
L2_Measuring Waves: Amplitude, Wavelength and Frequency
L3_Comparing Energy in Different Waves
L4_Waves and Materials: Reflection, Transmission and Absorption
E3_Climate Data: Analyzing and Interpreting
L5_Electromagnetic Waves: A Full Spectrum
L6_Infrared Waves: Uses and Applications
L7_Ultraviolet Waves: Effects and Impacts
M1_Measuring Solution Concentrations
M2_Diffusion: Moving Across Membranes
N1_The Five Kingdoms: Classifying Life
N2_Scientific vs. Common Names
N3_Origins of Scientific Naming
N4_Using Scientific Names for Classification
O1_The Chemistry of Life: Carbohydrates, Proteins, Lipids and DNA
O2_Cellular Respiration: Energy for Life
P1_Cells: The Basic Units of Life
P2_Levels of Cellular Organization
P3_Plant Cells: Structure and Function
P4_Animal Cells: Inside the Cell World
P5_Cells of the Human Body
P6_Plant Tissues: Diversity and Functions
P7_Animal Tissues Explained
P8_Mitosis and the Cell Cycle
Q1_Organization in the human body
Q2_Ciculatory System
Q3_Respiatory System
Q4_Excretory System
Q5_Digestive System
Q6_Disorders of Digestive System
Q7_Body systems: perception and motion
Q8_Phantom Pain Mysteries: How the Nervous System Tricks the Brain
R1_Traits: Inherited or Acquired? Using Evidence to Decide
R2_Sexual Reproduction: The Source of Genetic Variation
R3_Genotype vs. Phenotype: What’s Inside vs. What We See
R4_Dominant vs. Recessive Traits: The Science of Inheritance
R5_Punnett Squares: Predicting Offspring Traits
R6_Genes to Proteins to Traits: Decoding Life’s Instructions
R7_Mutations: How Changes in Genes Affect Organisms
R8_Genes + Environment: What Shapes Plant Growth?
S1_Animal Behaviors: How They Improve Reproductive Success
S2_Natural Selection: Survival of the Fittest Explained
S3_Traits in a Population: Calculating Percentages and Averages
T1_Fossils vs. Modern Organisms: Spotting the Differences
T2_Fossil Ages: Comparing Layers in Rocks
U1_Flowering Plants and Conifers: Life Cycles Explained
U2_Mosses and Ferns: Life Cycles Simplified
V1_Photosynthesis: How Plants Capture and Use Energy
V2_Spotting Photosynthetic Organisms in Nature
W1_Populations, Communities and Ecosystems: How They Connect
X1_Food Chains: How Matter Moves Through Ecosystems
X2_Reading and Understanding Food Webs
X3_Predicting Population Changes Using Food Chains
X4_Symbiotic Relationships: Classifying Partnerships in Nature
X5_Primary Succession: Life on a Volcanic Island
Y1_Coral Reefs: Human Uses vs. Biodiversity Protection
Z1_Groundwater and Fossil Fuels: Evaluating Human Impact
A1_Identifying Rocks and Minerals: The Basics
A2_Rock Cycle: An Introduction
A3_Classifying Rocks: Igneous, Sedimentary and Metamorphic
A4_How Rock Layers Form Over Time
A5_Rock Cycle Diagrams: Visualizing the Process
B1_Layers of the Earth: Labeling and Understanding
B2_Earth’s Land Features: Interpreting Photographs
B3_Earth’s Land Features: Using Satellite Images
B4_Tectonic Plate Boundaries: Mapping Around the World
C1_Earth’s Four Spheres: Geosphere, Biosphere, Hydrosphere and Atmosphere
C2_The Water Cycle: A Complete Diagram
C3_The Carbon Cycle: Energy and Matter Flow in Nature
D1_Air Masses: Exploring and Comparing Properties
D2_How Air Masses Form: The Science Behind Them
D3_The Greenhouse Effect: Warming the Planet
E1_Weather and Climate: Conditions Around the World
E2_Weather or Climate? Using Textual Evidence
E4_Latitude and Altitude: Climate Factors Explained
E5_Oceans and Currents: Their Impact on Climate
F1_Natural Hazard Maps: Analyzing and Interpreting
G1_Solar System: Planets and More
G2_Earth-Sun-Moon System: Models and Movements
G3_Constellations and the Changing Night Sky
G4_Phases of the Moon: Identifying and Understanding
G5_Solar Eclipses: When the Sun Disappears
G6_Lunar Eclipses: Earth’s Shadow on the Moon
G7_Seasons on Earth: Why They Change
G8_Comparing Planetary Properties: Using Data
G9_Structure of the Universe: From Galaxies to Planets
G10_Satellites: Types and Uses
G11_Comets: Visitors from Space
G12_Global Positioning System: The Science Behind Navigation
H1_Choosing Customary Units: Distance, Mass and Volume
H2_Choosing Metric Units: Distance, Mass and Volume
H3_Abbreviations: Time, Length, Speed and Acceleration Units
H4_Abbreviations: Temperature, Mass and Volume Units
H5_Abbreviations: Force, Energy and Electricity Units
I1_Food and Diet: Building Healthy Eating Habits
J1_Technology in Everyday Life
J2_Seasonal Plants and Vegetables
J3_Preparation of Milk products
