Biblical Worldview Shaping

• Foundations of Science—God’s Word provides necessary context and direction for scientific endeavors.
• Limitations of Science—Science cannot provide absolute truth or answer certain questions, but the models it provides can be very useful.
• Origins—A young earth biblical timeline is crucial to rightly understanding nature.
• Dominion—God has given people authority over the earth, and they must wisely steward its resources.
• Ethics—Good decision-making depends on a biblical approach to issues.

General Science

• Demonstrating science process skills
• Using science tools
• Using microscopes
• Following the scientific method
• Explaining the role of models in science
• Evaluating the limitations of science

Physical Science: Matter

• Atoms
  • Describing the structure of an atom
  • Analyzing the history of atomic models
  • Differentiating atomic mass and atomic number
  • Describing and using the periodic table of the elements
• Compounds
  • Differentiating between physical and chemical properties and changes
  • Relating the thermal energy of a substance to particle motion and state
  • Summarizing the process of thermal energy transfer
  • Reading and writing chemical formulas
  • Describing types of chemical reactions
  • Comparing types of atomic bonds
• Demonstrating the law of conservation of matter

Physical Science: Motion

• Motion measurements
  • Relating reference points to motion
  • Relating speed, velocity, and acceleration
  • Relating mass and inertia
• Force
  • Relating the motion of an object to forces acting on it
  • Differentiating between contact and field forces
  • Describing the effects of gravity on an object
• Newton’s laws of motion
  • Identifying Newton’s laws of motion
  • Relating gravity and friction to inertia
  • Demonstrating Newton’s laws of motion
  • Relating slope and speed

Physical Science: Energy

• Relating kinetic energy and potential energy in energy transformations
• Describing static and current electricity
• Describing how an electric current can be generated
• Explaining the relationship between magnetism and electricity
• Explaining how generators work

Physical Science: Waves

• Wave behavior
  • Modeling the components of a wave
  • Relating the medium of a wave to its speed
• Sound waves
  • Explaining the behavior of sound waves
• Light waves
  • Describing electromagnetic waves
  • Describing the electromagnetic spectrum

General Life Science

• Cells and classification
  • Distinguishing between living things and nonliving things
  • Describing the cell theory
  • Relating cells, tissues, organs, and systems
  • Identifying cell structures
  • Comparing plant and animal cells
  • Constructing a 3D model of a cell
  • Describing six kingdoms of classification
  • Comparing humans to other living organisms
  • Sequencing the levels of the classification system
  • Writing scientific names
• Heredity and genetics
  • Relating chromosomes, DNA, and genes
  • Distinguishing between learned and inherited traits
  • Describing DNA structure
  • Describing Mendel’s experiments
  • Differentiating between dominant genes and recessive genes
  • Predicting genetic probability by using Punnett squares
  • Identifying examples of genetic engineering

Life Science: Microorganisms and Plants

• Plant classification
  • Describing nonvascular plants (mosses and liverworts)
  • Describing seedless vascular plants (ferns, horsetails, and club mosses)
  • Describing seed-bearing vascular plants (gymnosperms and angiosperms)
  • Identifying plant parts
• Plant reproduction
  • Identifying the parts of a flower and their functions
  • Differentiating between pollination and fertilization
  • Explaining how seeds are classified
  • Describing the process of germination
  • Explaining how plants reproduce
    • Seeds
    • Spores
    • Asexual reproduction

Life Science: Animals

• Animal classification
  • Describing and classifying invertebrates (Porifera, Cnidaria, echinoderms, mollusks, worms, arthropods)
  • Describing and classifying vertebrates (fish, amphibians, reptiles, birds, mammals)
  • Explaining the roles of animals in their environments
• Animal reproduction
  • Describing how organisms have adapted to survive in their habitats
  • Relating adaptation to natural selection and reproduction

Earth and Space Science: The Geosphere

• Earthquakes
  • Explaining the theory of plate tectonics
  • Relating the movement of plates to faults and earthquakes
  • Detecting seismic activity
  • Recording and interpreting data from earthquakes
• Volcanoes
  • Explaining the causes of volcanic eruption
  • Describing ways volcanoes are classified
  • Identifying effects and products of volcanoes
• Weathering and erosion
  • Tracing different types of rocks through the rock cycle
  • Differentiating between mechanical and chemical weathering
  • Describing the effects of agents of erosion: gravity, water, wind, and ice
  • Relating geological processes and human activity
• Natural resources
  • Describing nonrenewable energy resources
    • Fossil fuels
    • Nuclear energy
  • Describing renewable energy resources
    • Hydroelectric energy
    • Geothermal energy
    • Wind energy
    • Solar energy
    • Minerals, rocks, and soil
  • Explaining methods of conservation: reduce, reuse, recycle

Engineering Design: STEM

• Following the Engineering Design Process to solve a problem
  • Making an insulated beverage container
  • Making a safe helmet
  • Building a marble run that demonstrates energy transformations
  • Making noise-canceling earmuffs
  • Making a device to see around an obstacle
  • Making a seismograph

The Pattern of Life

Definition of science, science and worldview, biblical vs. naturalistic worldviews, science and biblical ethics, characteristics of life, homeostasis, design of life, modeling, thinking scientifically, limitations of science, classification of life; cell theory, cell structure and function, cellular respiration, photosynthesis; genes, DNA replication, RNA transcription, protein synthesis, cell division, mitosis and meiosis; Mendelian genetics, genetic crosses, variations on simple genetics, population genetics; biblical creationism vs. evolutionism, change in nature, worldview and change

Microorganisms and Plants

Archaebacterial vs. eubacteria, bacterial structure, reproduction, and importance; antibiotic resistance in bacteria; viruses; protist movement, nutrition, classification, and reproduction; structure, nutrition, and importance of fungi; plant structure and classification; plant hormones, tropisms, and photoperiodism, plant reproduction and life cycles

The Animal Kingdom

Characteristics of animals, characteristics and classifications of invertebrates; sponges, cnidarians, worms, mollusks, echinoderms, arthropods; characteristics and classifications of vertebrates; endotherms vs. ectotherms; fish, amphibians, reptiles, birds, and mammals; nutrition, transport, support, movement, and control systems of animals; animals reproduction and behavior, external and internal fertilization, egg structure and development, and placental reproduction; innate and learned behavior

The Human Body

Structure and function of skin, bones, joints, and muscles; types of muscles; digestive system structure and function; food and nutrition; chemical vs. mechanical digestion; alimentary canal organs; accessory organs; urinary system structure and function; respiratory system structure and function; connection between the respiratory and circulatory systems; circulatory system structure and function; heart, blood cells and plasma; blood vessels; flow of blood through the heart and lungs; connection between the circulatory and lymphatic systems; lymphatic system and immunity; lymph vessels and nodes; components of the immune system; nonspecific vs. specific immunity; vaccines; actives vs. passive immunity; parts of the nervous system; central nervous system vs. peripheral nervous system; nerves, reflex arc, and nerve impulses; sense organs structure and function; eyes, ears, touch, smell, and taste; hormones and endocrine glands; puberty; human reproduction and biblical sexuality; human growth and development

Interacting with the Biosphere

Ecology; abiotic vs. biotic factors; ecosystems and biomes; cycles of matter; water cycle, oxygen and carbon cycles, and nitrogen cycle; food chains, energy pyramids, and food webs; relationships between organisms; symbiosis; succession; managing and protecting the environment; pollution classification and solutions; substance vs. energy pollution; using natural resources; renewable vs. nonrenewable resources; management philosophy; conservation vs. preservation; management principles

Introduction to Earth Science

Earth science and exercising biblical dominion, worldviews and science, the structure of science, scientific models, what earth science is; maps and cartography, geographic information systems (GIS); introduction to physical science, matter, forces, energy, and measuring

The Restless Earth

Earth as a special place designed for life, a brief history of geology, operational and historical geology, the earth’s interior structure, natural resources; old- and young-earth origin theories of the earth, evidences for catastrophic changes in earth’s history, models for geologic tectonics; tectonic forces, faults and earthquakes, earthquakes and seismology, effects of earthquakes; mountains and hills, tectonic mountains and landforms, nontectonic mountains and landforms; volcanic emissions, volcano activity and classification, intrusive volcanism

Earth’s Rocky Materials

Describing minerals, identifying and classifying minerals, minerals as resources; classifying rocks, igneous rocks, sedimentary rocks, metamorphic rocks, critiquing the uniformitarian rock cycle; the process of fossilization, paleontology, fossil fuels; weathering, erosion and deposition, soils and soil formation

The Water World

Ocean basins and landforms, seawater composition, ocean environments; tides, currents, waves; history of oceanography, methods and instruments, deep-sea exploration, underwater habitats, research vehicles; stream characteristics, lakes and ponds, limnology; groundwater reservoirs, groundwater chemistry, water as a resource, solution caves and karst topography

The Atmosphere

Composition and thermal structure of the atmosphere, special regions; energy in the atmosphere; measurable weather data, causes of wind, global wind patterns, sources of local winds, cloud formation, classifying clouds, precipitation, dew and frost; air masses and weather fronts, causes of precipitation, winter storms, thunderstorms, tornadoes, hurricanes, weather forecasting, weather maps, applications of GIS in weather modeling; describing climate and climate zones, climate data and interpretation, observed short-term climate changes from volcanism and oceanic cycles, climate models, worldviews and long-term climate change, environmentalism and biblical stewardship of the environment

The Heavens

The sun-earth-moon system—the sun’s structure, composition and energy, the solar spectrum; the moon’s structure and surface, origin theories; Earth’s orbit, seasons, timekeeping, lunar phases, eclipses, tidal effects; models of the solar system, Kepler’s laws, classification and brief description of the planets, dwarf planets, small solar system bodies, evidences for a young solar system, constellations and star properties, stellar classification and the H-R diagram, stellar aging, classification of galaxies, nonstellar objects, cosmology and worldviews; challenges of space exploration, rocketry, principles of satellite and space probes, challenges and need for manned space exploration

Structure of Matter

Presents science as the development of models to explain and describe phenomena in a fallen and broken world; biblical versus secular worldview aspects of science; definition of key elements of scientific knowledge—laws, theories, and hypotheses; scientific study and application of scientific knowledge as a key aspect of obedience to the Creation Mandate; methodologies of science; scientific measurement; the metric system; accuracy, precision, and repeatability in measurements; introduction to the nature and classification of matter and energy; changes matter undergoes; historical development of the atomic model; structure of the atom; origin of the periodic table; elements and their symbols; classification of the elements; periodic trends; electronegativity and valence electron structure; covalent, ionic, and metallic bonds; compounds classified according to bond-type; chemical formulas and equations; oxidation numbers; introduction to organic chemistry and biochemistry

Changes in Matter

Types of chemical reactions; radiation and nuclear changes; classifying mixtures; solutions and the solution process; measuring concentration; acids and bases; salts from acid-base reactions; pH system and measurement

Matter in Motion

Describing motion; frames of reference; momentum; Newton’s laws of motion; gravity; free-fall; mechanical work; levers and other simple machines; mechanical advantage and efficiency; kinetic and potential energy; energy transformations and conservation; thermodynamics— thermal energy, temperature, and heat; basic hydraulic theory; gas laws; fluid mechanics

Waves and Energy

Description of periodic motion; waves and wave phenomena; sound and its properties; the human voice and hearing; applications of sound; static electricity; electric fields; electric current and Ohm’s law; circuits and electrical safety; magnets and magnetism; AC and DC generators and motors; transformers; electromagnets and their uses; bands of the electromagnetic spectrum; the properties of visible light; the nature of color; reflection and mirrors; refraction and lenses

Science of Life

Creation, Fall, Redemption, the Creation Mandate, study of life, attributes of life, the energy and information of life, worldviews, nature of science, modeling, scientific method, elements, thermodynamics, basic chemistry, physical and chemical changes, solutions, organic chemistry, biochemistry, ecology, ecosystems, biomes, food web, symbiosis, biochemical cycles, population growth and biodiversity, climate change, conservation, cell theory and structure, organelles, homeostasis, osmosis, membrane transport, metabolism, DNA synthesis, protein synthesis, photosynthesis, aerobic cellular respiration, fermentation, mitosis, meiosis, Mendelian genetics, genetic crosses, sex-linked traits, gene expression, population genetics, gene and chromosomal mutations, cancer, genetic engineering, historical development of biological evolution, tenets of biological evolution, biblical views of origins, contrasting the evolutionary and biblical views of history

Science of Organisms

Taxonomy, binomial nomenclature, use of dichotomous keys, comparison of species and kind, speciation, phylogenetic trees, archaearchaea and bacteria, bacterial structure, bacterial reproduction, control of bacteria, viruses and related organisms, diseases, protozoan classification and structure, protozoan reproduction and role in the environment, chromist classification and structure, chromist reproduction and role in the environment, evolution and protists, fungi classification and structure, fungi reproduction and role in the environment, plant classification and structure, nutrient transport in plants, plant hormones, tropisms, plant reproduction and role in the environment for mankind’s use, characteristics of animals, classification and structure of sponges, cnidarians, worms, mollusks, echinoderms and arthropods, invertebrate reproduction and role in the environment, classification and structure of ectothermic vertebrates, the reproduction and role in the environment for fish, amphibians, and reptiles, classification and structure of birds and mammals, the reproduction and role in the environment of endothermic vertebrates

Study of Human Life

The essence of humanity; tissues, organs, and systems; structure, function, and role of the following systems in the human body: integumentary, lymphatic, skeletal, muscular, respiratory, circulatory, digestive, excretory, nervous, endocrine, and reproductive systems; human growth and development, balanced living

Foundations of Chemistry

Chemistry: modeling matter, chemistry and worldview, chemistry and modeling, chemistry helps people, a biblical worldview of chemistry, doing chemistry, scientific inquiry, thinking like a scientist

Matter

Classification of matter, organizing our study, properties and changes of matter, classification of matter, energy and matter, work and energy, conservation of mass-energy, the law of entropy, thermal energy, temperature, and heat, states of matter, changes of state

Measurements in Chemistry

Measurement systems, metric system, unit conversion, measurements, limitations of measurements, accuracy, precision, significant figures, problem solving in chemistry, calculations with measured data

Atomic Structure

Early thoughts about matter, investigating atoms, Dalton’s model, development of atomic models, Thomson’s model, Rutherford’s model, completing Rutherford’s model, useful notations, isotopes

Electron Arrangement

Bohr model, electron energy levels, the quantum mechanical model, electron configurations, valence electrons, electron dot notation, ions

Periodic Table and Elements

Early organization, element periodicity, Mendeleev’s periodic table, the modern periodic table, periodic trends, elements by their groups

Chemical Bonds

Bonding basics, octet rule, types of chemical bonds, polarity and bond character, covalent bonding, diatomic elements, Lewis structures, ionic bonding, the structure of ionic compounds, polyatomic ions, metallic bonding, properties of compounds, using chemistry to solve problems

Bond Theories and Molecular Geometry

Bond theories, limits of Lewis structures, orbitals and valence bond theory, molecular resonance, when the octet rule doesn’t work, molecular orbital theory, molecular geometry, VSEPR and molecular shape, orbital hybridization, a measure of polarity, water molecules designed for usefulness, seeking the perfect bonding model

Chemical Compounds

Ionic compounds, oxidation numbers, using oxidation numbers, polyatomic ions, covalent compounds, nonmetals with multiple oxidation numbers, writing chemical formulas, naming compounds, acids, binary acids, ternary acids

Chemical Reactions and Equations

Chemical equations, information in chemical equations, balancing equations, special symbols in equations, limitations of balanced equations, types of reactions, ionic equations

Chemical Calculations

The mole, Avogadro’s number, molar mass, types of formulas, percent composition, empirical formulas, stoichiometry, limiting reactants, percent yield

Gases

Properties of gases, kineticmolecular description of gases,properties of gases, gas laws, standard conditions, Dalton’s law of partial pressures: mixtures of gases, gas stoichiometry, gases in reactions, molar volume, ideal gases, ideal gas law

Solids and Liquids

Intermolecular forces, kinetic description of solids, crystalline and amorphous solids, crystalline structures, kinetic description of liquids, effects of intermolecular attractions, vapor pressure and boiling point, distilling liquids, phase diagrams, using liquids to solve problems

Solutions

The dissolving process, types of solutions, the dissolving process, solvent selectivity, solution equilibria, rate of solution, solubility, measures of concentration, colligative properties, suspensions and colloids, properties of colloids

Thermochemistry

Thermodynamics and physical changes, measuring heat and temperature, enthalpy of phase changes, specific heat, thermodynamics and chemical changes, reaction tendency, chemical bonds and enthalpy, entropy and reaction tendency, entropy changes, free-energy change, worldview conflict in thermodynamics

Chemical Kinetics

Reaction rates, kinetics, energy diagrams, collision theory, activation energy and the activated complex, rates of reactions, reaction mechanisms, rate laws and reaction orders, kinetics in the real world

Chemical Equilibrium

Equilibrium, equilibrium constants, le Châtelier’s principle, equilibria and industry, solution equilibrium, ionic equilibria, common-ion effect, precipitation reactions

Acids, Bases, and Salts

Defining acids and bases, properties of acids and bases, models of acids and bases, acid-base equilibria, self-ionization of water, pH and pOH scales, acid-base strength, amphoteric substances, polyprotic acids, measuring pH, neutralization, salts, titration, buffers

Oxidation and Reduction

Redox reactions, oxidation, reduction, oxidizing and reducing agents, using oxidation to solve problems, balancing redox reactions, electrochemical reactions, electrochemical cells, electrolytic cells, voltaic cells

Organic Chemistry

Organic compounds, unique carbon atom, classification of hydrocarbons, substituted hydrocarbons, alcohols, ethers, aldehydes and ketones, carboxylic acids, esters, amines and amides, organic reactions

Biochemistry

Chemistry of life, chemical reactions in cells, biochemistry and ultimate questions, carbohydrates, lipids, proteins, polypeptide chains, enzymes, nucleic acids, amino acids, worldview conflict in biochemistry

Nuclear Chemistry

Inside the nucleus, nuclear stability, energy and nuclear changes, measuring radiation, radioactive decay, predicting types of decay, radioactive decay series, half-life, using nuclear chemistry, nuclear reactions, fission, fusion, using nuclear chemistry to solve problems

Kinematics

The biblical worldview in which we do science in obedience to God’s commandment to exercise good stewardship over the earth for His glory and for the benefit of our fellow humans; the structure and limitations of science; overview of physics; scientific methodology and modeling; the metric (SI) system of measurement as well as principles of measurement; rules for determining and using significant figures in measurements and calculations; mathematical description of motion in one and two dimensions; vectors and scalars in graphical and analytical solutions

Dynamics

Force and the causes of motion according to Newton’s laws (dynamics); friction; motion in a plane, including circular motion; motion of multibody systems; work, energy, and total mechanical energy; conservation of energy; momentum and its conservation, collisions, center of mass, and angular momentum; periodic and simple harmonic motion, the pendulum, damped and driven oscillations, physical waves, and sound

Thermodynamics and Matter

Thermal properties of matter, measuring temperature, and the gas laws; theories of heat, thermal energy, mechanisms for heat transfer; the four laws of thermodynamics; entropy and its consequences; fluid mechanics (hydrostatics and hydrodynamics)

Electromagnetics

Electrostatics and charges; electric fields and capacitors; current, voltage, resistance, and basic DC circuits; magnetism and its relationship to current and conductors; and electromagnetism and alternating currents

Geometric Optics and Light

The electromagnetic spectrum, sources and propagation of light; intensity and color of light; reflection and mirrors; refraction and lenses; and wave interference, diffraction, and polarization

Modern Physics

Relativity: Galilean, special, and general relativity; quantum physics: quantum theory, quantum mechanics, the atom, and modern atomic models; nuclear physics: radiation and radioactivity, radioactive decay, nuclear reactions, and subatomic particles

Biblical Worldview Shaping

• Identity—Relating personality and self-image to overall health
• Relationship—Applying biblical principles to family and peer relationships to promote personal and community health
• Discernment—Evaluating the reliability of health information, products, and services
• Ethics—Formulating positions on health-related issues, such as reproductive issues, organ donation, and disabilities
• Virtue—Applying biblical principles to become healthy and holy people

Life Science

• Defining health—Health care basics; Health risks; Health skills; Health literacy
• Health and safety—Personal hygiene; Assessing risks; Personal safety; Basic first aid
• Mental health—Personality; Self-image; Responding to stress; Mental disorders; Medical model and biblical model of treatment; Mental health’s effect on wellbeing; Suicide
• Health and life management—Money management; Budgeting; Decision-making; Character; Motivation and success; Communication skills; Empathy; Resilience; Coping skills; Handling loss
• Social health—Family relationships; Peer relationships; Making positive choices; Helping others; Preventing violence; Resources for abuse victims; Self-defense; Media and technology; Technology and health

Life Science: The Human Body

• Structure, function, and role of the human systems—Immune system; Skeletal system; Muscular system; Pulmonary system; Cardiovascular system; Digestive system; Urinary system; Nervous system; Endocrine system; Reproductive system
• Organ donation
• Diseases—Infectious diseases: origin, immunity, and disease prevention; Chronic diseases: cardiovascular disease, risk factors, cancer, risk reduction, respiratory diseases, diabetes, and autoimmune diseases
• Disabilities—Impairment; Accessibility and accommodation; Cognitive disabilities; Intellectual disabilities; Learning disabilities; Assistive technology; Prenatal discrimination; Hearing disabilities; Visual disabilities; Physical disabilities; Inclusion
• Drug use and abuse—Medication: uses, classification, prescriptions, medication adherence, drug reactions, side effects, polypharmacy, interactions, safety, abuse, addiction, reducing risks, and misuse; Substance abuse: alcohol, risktaking, avoidance, effects of marketing, impact, nicotine, vaping, benefits of stopping, impacts, illegal drugs, classifying, risk-taking, avoidance, impacts, and resisting peer pressure
• Growth and development—Nutrition: Macronutrients and micronutrients, Carbohydrates, proteins, and lipids, Hydration, Vitamins and minerals, Health nutrition choices, Nutrition labels; Fitness and exercise; Reproductive health: Gender, Menstrual cycle, Birth control, Abstinence; Human development: Pregnancy and infertility, birth, prenatal care, risks to the unborn, and abortion, Infancy and child development, Adolescence, Early adulthood, Marriage and parenting, Stages of adulthood

Earth and Space Science

• Environmental health—Air quality; Noise pollution; Light pollution; Land pollution; Water pollution; Clean water; Fracking; Types of natural disasters, disaster preparedness; Stewardship; Conservation