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Molecules. Cells. Plants. Animals. Humans. Evolutionary Logic. From Static Evolutionary Model (Linnaeus) to Dynamic Evolutionary Model (Darwin) Evolutionary Logic in Biology. Vertical Instructions & Retrospection. 5-6 grades: Botany 6-7 grades: Zoology 7-8 grades: Anatomy/Physiology - PowerPoint PPT Presentation
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Evolutionary Logic
From Static Evolutionary Model (Linnaeus)to Dynamic Evolutionary Model (Darwin)
Evolutionary Logic in Biology
Molecules Cells Plants Animals Humans
Vertical Instructions & Retrospection
5-6 grades: Botany 6-7 grades: Zoology 7-8 grades: Anatomy/Physiology 9 grades: Evolutionary Theory & Ontogenesis 10 grade: Cell 11 grade: Molecular Biology & Ecology
Horizontal Instructional Models
Molecules Cells Plants Animals Humans
Molecules Cells Plants Animals Humans
Compare AP & Low: the less AP the more linear
Get it and Forget it
A Reference reinforces, but will it enhance reasoning?
Instructional Domains
Instructional topics from
different parts of the course
Lab Investigation
Concept
Molecular Visualization
Protein folding Protein stability Enzyme catalysis Specific protein-protein recognition.
Electrostatic potential of proteins caused by charged side chains and bound ions
AND
Molecular Dynamic
From Memorizing Static Chemical Formulas & Balancing Chemical Equation/Stoichiometry
To Experimenting with Molecular Dynamic Models
Molecular Visualization Coupled with Molecular Dynamic Models May Make Molecular World
Relevant to StudentsAllow Introduction of Molecular Logic in Biology
Aquatic Solutions Experimental Module
Basic Models: Pillars for Instructional Domain
Molecular Kinetic Motion
Chemical Kinetics
Solutions and Solubility
Diffusion & Osmosis
Diffusion and Multiple Biology Topics
Cells: Waste Elimination
Leaves & TranspirationBotany
Plant cells; Turgor Botany
Cells:Chemical transport
Cell nourishment
Root functionBotany
Cell Membrane
Physiology: Excretory system
Physiology: Nervous system
Physiology:Kidney function
Physiology: Respiratory System
Physiology: Digestion
Physiology:Circulatory systems
Cell Membrane *Biotechnology: Molecular separation
Diffusion & OsmosisDynamic Model
Progression of Models
Membrane: Gradients & BarriersModelUnicellular
Simple Diffusion: Dynamic EquilibriumModelMembrane
Active Transport: ATPModelDigestion
Facilitated Diffusion & Reverse ModelKidney
Model Cascades: Relaying Signals
Neuron
From Simple Diffusion Model to ATP
Diffusion
Osmosis
Active Transport
Maintaining Gradients & Conserving Energy
Chemo-osmotic potential
ATP formation
Bioenergetics
Molecular Dynamic & Dynamic Evolution
Electro-negativity
Atoms & electrons
Functional Groups
Molecular Diversity
Chemical Reactions
Amino acidsinteractions
Biopolymers Proteins:Form & function
Protein Folding
Protein: Self-Assembly
Molecular Morphogenesis
MolecularAdaptation
GeneticsEvolution
Molecular Dynamic & Dynamic Evolution Models
Statistical Nature of
Molecular Behavior +
Forces of MolecularInteractions
Statistical Nature of
Genetic Variation+
Selection Pressure