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Audio Osmosis: Disc 1
Intro
How to Use These Recordings
Other Products by Osote Publishing
The MCAT
Phys1:Five Step System
Phys1:Vectors and Scalars
Phys1:Component Vectors, Trigonometry, & Triangles
Phys1:Translational Motion: Conceptually
Phys1:Translational Motion: Application
Phys1:Vertical Projectile Motion
Phys1:Distance Traveled
Phys1:Translational Motion Formulas
Phys1:Example in Projectile Motion
Phys1:Air Resistance
Phys2:Mass & Weight
Phys2:Rotational Inertia
Phys2:Summary of Mass & Weight
Phys2:Center of Mass
Phys2:The Four Forces of Nature
Phys2:Types of Contact Forces
Phys2:Newton's Laws of Motion
Phys2:Newton's First Law
Phys2:Newton's Second Law
Phys2:Newton's Third Law
Phys2:Explanation of Horse & Cart
Phys2:Newton's Law of Gravity
Phys2:Why Objects Appear to Float in Orbit
Phys2:Centripetal Acceleration
Phys2:Radius of Curvature
Phys2:Centripetal Force
Phys2:Inclined Planes
Phys2:Friction
Phys2:Static & Kinetic Friction
Phys2:Formulas for Friction
Phys2:When Does Friction Oppose Motion?
Phys2:Tension
Phys2:Hooke's Law |
Audio Osmosis: Disc 10
Bio6: Digestion
Bio6: Anatomy of the Digestive System
Bio6: The Mouth and the Esophagus
Bio6: The Stomach
Bio6: Small Intestines
Bio6: The Pancreas
Bio6: The Large Intestine
Bio6: Absorption
Bio6: Absortive Fate of Carbohydrates
Bio6: Absorptive Fate of Proteins
Bio6: Absortive Fate of Fats
Bio6: The Liver
Bio6: Function and Anatomy of the Kidney
Bio6: The Renal Corpuscle
Bio6: The Proximal Tubule
Bio6: The Loop of Henle
Bio6: The Distal Tubule
Bio6: The Collecting Duct
Bio6: The Juxtaglomerular Apparatus
Bio7: Cardiovascular Anatomy
Bio7: The Action Potential in the Heart
Bio7: Breathing
Bio7: Anatomy of the Respiratory System
Bio7: Gas Exchange
Bio7: Oxygen Dissociation Curves
Bio7: The Chloride Shift
Bio7: The Lymphatic System
Bio7: The Blood
Bio7: Blood Cells
Bio7: Innate Immunity
Bio7: Humoral Immunity
Bio7: Effect of Antibodies
Bio7: Cell Mediated Immunity
Bio7: Blood Types
Bio8: Types of Muscle
Bio8: Skeletal Muscle
Bio8: The Structure of Skeletal Muscle
Bio8: Mechanism of Skeletal Muscle Contraction
Bio8: Motor Units
Bio8: Skeletal Muscle Cell Ty
Bio8: Cardiac Muscle
Bio8: Bone
Bio8: Compact Bone
Bio8: Cartilage and Joints |
Audio Osmosis: Disc 11
Bio9: Mendel
Bio9: Mendel's Second Law
Bio9: Other Methods of Expression
Bio9: Ramifications of Being Diploid
Bio9: Evolution
Bio9: What is a Species?
Bio9: Reproductive Strategies
Bio9: Convergent and Divergent Evolution
Bio9: The Hardy Weinberg Principle
Bio9: The Origin of the Universe
Orgo1: Molecular Structure
Orgo1: Lewis Dot Structures
Orgo1: Structural Formulas
Orgo1: The Important Functional Groups
Orgo1: Other Functional Groups
Orgo1: Nomenclature
Orgo1: Bonding
Orgo1: Hybridization
Orgo1: Shapes and Bond Angles
Orgo1: Delocalized Electrons
Orgo1: Rules for Drawing Resonance Structures
Orgo1: Dipole Moment
Orgo1: Intermolecular Bonding
Orgo1: Conformational Isomers
Orgo1: Structural Isomers
Orgo1: Chirality
Orgo1: Absolute Configuration
Orgo1: Relative Configuration
Orgo1: Observed Rotation
Orgo1: Enantiomers
Orgo1: Diastereomers
Orgo2: Alkanes
Orgo2: Physical Properties of Alkanes
Orgo2: Cycloalkanes
Orgo2: Combustion
Orgo2: Halogenation of Alkanes
Orgo2: Alkenes
Orgo2: Synthesis of Alkenes |
Audio Osmosis: Disc 12
Orgo2: Catalytic Hydrogenation
Orgo2: Oxidation of Alkenes
Orgo2: Electrophilic Addition
Orgo2: Hydration of an Alkene
Orgo2: Oxymercuration
Orgo2: Hydroboration
Orgo2: Halogenation of an Alkene
Orgo2: Benzen
Orgo2: Electron Donating and Withdrawing Properties
Orgo2: SN1 Reactions
Orgo2: SN2 Reactions
Orgo2: Nucleophilicity
Orgo2: SN1 vs. SN2
Orgo2: Alcohols
Orgo2: Alcohols as Acids
Orgo2: Alcohol Synthesis
Orgo2: Reactions with Alcohols
Orgo2: Ethers
Orgo2: Order of Acidity
Orgo3: The Carbonyl
Orgo3: Physical Properties of Aldehydes and Ketones
Orgo3: Chemical Properties of Aldehydes and Ketone
Orgo3: Aldehydes and Ketones with Alcohols
Orgo3: Aldol Condensation
Orgo3: Conjugation
Orgo3: Carboxylic Acids
Orgo3: Chemistry of Carboxylic Acids
Orgo3: Reactions of Carboxylic Acid and Derivatives
Orgo3: Amines
Orgo3: Reactions with Amines
Orgo3: Nitriles
Orgo4: Fatty Acids
Orgo4: Amino Acids
Orgo4: The Isoelectric Point and Electrophoresis
Orgo4: Carbohydrates
Orgo4: Nuclear Magnetic Resonance
Orgo4: Peak Position in NMR
Orgo4: Spin-spin Splitting
Orgo4: Integral and Digital Traces
Orgo4: An Example of NMR
Orgo4: NMR Summary
Orgo4: IR Spectroscopy
Orgo4: Chromatography
Orgo4: Distillation
Orgo4: Crystallization
Orgo4: Extraction |
Audio Osmosis: Disc 2
Phys3:Equilibrium
Phys3:Equilibrium Example
Phys3:Non-Equilibrium
Phys3:Non-Equilibrium Example
Phys3:Torque
Phys3:Example of Torque
Phys3:Energy
Phys3:Types of Energy
Phys3:Gravitational Potential Energy
Phys3:Elastic Potential Energy
Phys3:Systems
Phys3:The First Law of Thermodynamics
Phys3:Work vs. Heat
Phys3:Work
Phys3:Another Formula for Work
Phys3:Conservative Forces
Phys3:Work & Conservative Forces
Phys3:Friction & Work
Phys3:Power
Phys4:Momentum vs. Inertia
Phys4:Momentum Defined
Phys4:Elastic vs. Inelastic Collisions
Phys4:Collision Example
Phys4:Solving Collision Problems
Phys4:Reverse Collisions
Phys4:Impulse
Phys4:The Reason for Machines
Phys4:How Machines Work
Phys4:Ramps
Phys4:Levers
Phys4:Pulleys
Phys4:Halflife
Phys4:Alpha Particles
Phys4:Beta Decay
Phys4:Positron Emission
Phys4:Electron Capture
Phys4:Gamma Rays & Annihilation
Phys4:
Phys4:Fission & Fusion |
Audio Osmosis: Disc 3
Phys5:The Nature of Fluids
Phys5:Intensive & Extensive Properties
Phys5:Density & Specific Gravity
Phys5:The Concept of Pressure
Phys5:Units of Pressure
Phys5:Fluids at Rest
Phys5:Gauge Pressure
Phys5:Pascal's Principle
Phys5:A Hydraulic Lift
Phys5:Archimedes Principle
Phys5:The Buoyant Force
Phys5:Fluids in Motion
Phys5:Ideal Fluids
Phys5:The Continuity Equation
Phys5:Bernoulli's Equation
Phys5:Non-Ideal Fluids
Phys5:Surface Tension
Phys5:Stress & Strain
Phys5:Modulus of Elasticity
Phys5:Thermal Expansion
Phys6:Wave Characteristics
Phys6:Velocity of a Wave
Phys6:Surface Waves
Phys6:Intensity
Phys6:Wave Phase
Phys6:Beat Frequency
Phys6:Standing Wave
Phys6:Simple Harmonic Motion
Phys6:The Doppler Effect |
Audio Osmosis: Disc 4
Phys7:Electric Charge
Phys7:Electrostatic Force
Phys7:Derivations from Newton's and Coulomb's Law
Phys7:Fields & Lines of Force
Phys7:An Electric Dipole
Phys7:Resistivity
Phys7:Moment of Charge
Phys7:Circuits
Phys7:Capacitors
Phys7:Energy of a Capacitor
Phys7:Circuit Elements
Phys7:Solving Circuits
Phys7:Power
Phys7:AC Current
Phys7:Magnetism
Phys8:Electromagnetic Waves
Phys8:Light
Phys8:Geometric Optics
Phys8:Chromatic Dispersion
Phys8:Diffraction
Phys8:Images
Phys8:Types of Lenses & Mirrors
Phys8:Radius of Curvature
Phys8:Focal Points
Phys8:Power
Phys8:Ray Diagrams
Phys8:Magnification
Phys8:The Thin Lens Equation
Phys8:A System for Optics
Phys8:Double Lense Systems |
Audio Osmosis: Disc 5
Verbal: Why Verbal Reasoning is on the MCAT
Verbal: What Kind Improvement Can I Expect
Verbal: The Structure of the Verbal Reasoning Section
Verbal: Strategy Part 1: Energy
Verbal: Strategy Part 2: Focus
Verbal: Strategy Part 3: Confidence
Verbal: Strategy Part 4: Timing
Verbal: Tactics Part 1: The Five Second Break
Verbal: Tactics Part 2: Read Every Word
Verbal: Tactics Part 3: The Main Idea
Verbal: Tactics Part 4: The Four Tools to Find the Answer
Verbal: Tool 1: Going Back to the Passage
Verbal: Tool 2: The Main Idea
Verbal: Tools 3 & 4: The Question Stems and Answer Choices
Chem 1: Atomic Structure
Chem 1: Elements and Isotopes
Chem 1: Avogrado's Number and the AMU
Chem 1: The Periodic Table
Chem 1: The Periodic Trends
Chem 1: Ionization Energy
Chem 1: Electronegativity and Electron Affinity
Chem 1: Bonds
Chem 1: Empirical and Molecular Formulas
Chem 1: Reactions
Chem 1: The Structure of Solids
Chem 1: Quantum Mechanics
Chem 1: Quantum Numbers
Chem 1: The First Quantum Number
Chem 1: The Second Quantum Number
Chem 1: The Third Quantum Number
Chem 1: The Fourth Quantum Number
Chem 1: The Heisenberg Uncertainty Principle
Chem 1: The Aufbau principle
Chem 1: Degenerate Orbitals
Chem 1: Hund's Rule
Chem 1: Planck's Quantum Theory
Chem 1: The Photoelectric Effect
Chem 1: Electron Configuration
Chem 2: Ideal Gas and Kinetic Molecular Theory
Chem 2: No Volume
Chem 2: No Attractive Forces
Chem 2: Elastic Collisions
Chem 2: Temperature and Kinetic Energy
Chem 2: The Ideal Gas Law
Chem 2: Standard Molecular Volume
Chem 2: Dalton's Law
Chem 2: Temperature and Molecular Kinetic Energy
Chem 2: Effusion and Diffusion
Chem 2: Real Gas Behavior
Chem 2: Reaction Kinetics
Chem 2: How Reaction Occurs |
Audio Osmosis: Disc 6
Chem2: The Arrhenius Equation
Chem2: The Rate Law
Chem2: Exponents in the Rate Law
Chem2: Catalysts
Chem2: Chemical Equilibrium
Chem2: LeChatelier's Principle
Chem2: The Reaction Quotient
Chem3: What is Thermodynamics
Chem3: Isolated Systems
Chem3: Closed Systems
Chem3: Open Systems
Chem3: The First Law of Thermodynamics
Chem3: Conduction
Chem3: Convection
Chem3: Radiation
Chem3: Work
Chem3: The Second Law of Thermodynamics
Chem3: State Functions
Chem3: Internal Energy
Chem3: Temperature
Chem3: The Third Law of Thermodynamics
Chem3: Enthalpy
Chem3: Standard State and Heat of Formation
Chem3: Heat of Reaction
Chem3: Endothermicity and Exothermicity
Chem3: Energy Diagrams
Chem3: Entropy
Chem3: Equations for Entropy
Chem3: Gibbs Energy
Chem3: Gibbs Energy Formula
Chem4: What is a Solution
Chem4: Types of Solutions
Chem4: Colloids
Chem4: Solvation
Chem4: Ions
Chem4: Units of Concentration
Chem4: Solution Formation
Chem4: Vapor Pressure
Chem4: Raoult's Law
Chem4: Deviations to Raoult's Law
Chem4: Solubility
Chem4: The Solubility Product
Chem4: Spectator Ions and the Common Ion Effect
Chem4: Solubilities
Chem4: Solubility Factors
Chem5: Phases
Chem5: Heat Capacity
Chem5: Specific Heat
Chem5: Calorimeter |
Audio Osmosis: Disc 7
Chem5: Heat Curves
Chem5: Thermodynamics of Phase Changes
Chem5: Phase Diagrams
Chem5: Colligative Properties
Chem5: Boiling Point Elevation
Chem5: Freezing Point Depression
Chem5: Osmotic Pressure
Chem6: Definitions
Chem6: The Hydronium Ion
Chem6: Acid Strength and pH
Chem6: The Log Function
Chem6: Acid and Base Reactions
Chem6: Structural Characteristics of an Acid
Chem6: Acid/Base Equilibrium
Chem6: The Acid Dissociation Constant
Chem6: The pH of a Strong Acid
Chem6: The pH of a Weak Acid
Chem6: Titrations
Chem6: Buffered Solutions
Chem6: The Henderson-Hasselbalch Equation
Chem6: Indicators
Chem6: Titrations of Polyprotic Acids
Chem7: Electrochemistry
Chem7: Oxidation States
Chem7: Redox Reactions
Chem7: Redox Titrations
Chem7: Half Reaction Potentials
Chem7: The Galvanic Cell
Chem7: An Example of a Galvanic Cell
Chem7: Gibbs Free Energy and EMF
Chem7: The Nernst Equation
Chem7: A Concentration Cell
Chem7: Electrolytic Cells |
Audio Osmosis: Disc 8
Bio1: Water
Bio1: Lipids
Bio1: Proteins
Bio1: Primary and Secondary Structure
Bio1: Tertiary Structure
Bio1: Quaternary Structure
Bio1: Carbohydrates
Bio1: Nucleic Acids
Bio1: Minerals
Bio1: Enzymes
Bio1: Enzyme Inhibition
Bio1: Glycolysis and Fermentation
Bio1: Aerobic Respiration
Bio1: The Electron Transport Chain
Bio2: The Gene
Bio2: The Structure of DNA
Bio2: Replication
Bio2: RNA
Bio2: Transcription
Bio2: Post-Transcriptional Processing
Bio2: DNA Technology
Bio2: The Universal Genetic Code
Bio2: Translation
Bio2: Mutations
Bio2: Chromosomes
Bio2: The Cell Life Cycles
Bio2: Mitosis
Bio2: Meiosis
Bio3: Microbiology
Bio3: Viruses
Bio3: The Viral Life Cycle
Bio3: Types of Viruses
Bio3: The Structure of Bacteria
Bio3: The Phospholipid Bilayer
Bio3: Membrane Transport
Bio3: Bacterial Envelope
Bio3: Bacterial Movement |
Audio Osmosis: Disc 9
Bio 3- Genetic Recombination and Reproduction In Bacteria
Bio 3- Endospores
Bio 3- Sources for Energy, Carbon, and Electrons
Bio 3- Fungi
Bio 3- Yeast
Bio 4- The Nucleus
Bio 4- Endocytosis
Bio 4- Two Sides to Every Cell
Bio 4- The Rough ER
Bio 4- The Golgi
Bio 4- Lysosomes
Bio 4- Peroxisomes
Bio 4- The Smooth ER
Bio 4- The Cytoskeleton
Bio 4- Flagella and Cilia
Bio 4- Mitochondria
Bio 4- The Glycocalyx
Bio 4- Cellular Junctions and the Matrix
Bio 4- Multicellular Organization
Bio 4- Intercellular Communication
Bio 4- Physiology of the Nervous System
Bio 4- The Action Potential
Bio 4- The Synapse
Bio 4- Neuroglia
Bio 4- The Structure of the Nervous System
Bio 4- Sympathetic and Parasympathetic
Bio 4- The Brain
Bio 4- Sensory Receptors
Bio 5- Exocrine vs. Endocrine
Bio 5- Classes of Hormones
Bio 5- How Peptides Function
Bio 5- The Second Messenger System
Bio 5- How Steroids Function
Bio 5- How Tyrosine Derivatives Function
Bio 5- Negative Feedback
Bio 5- The Hypothalamus
Bio 5- The Anterior Pituitary
Bio 5- The Posterior Pituitary
Bio 5- The Thyroid
Bio 5- The Parathyroid
Bio 5- The Pancreas
Bio 5- Glucagon
Bio 5- Insulin
Bio 5- The Adrenal Cortex
Bio 5- Aldosterone
Bio 5- Cortisol
Bio 5- The Adrenal Medulla
Bio 5- Male Reproductive Hormones
Bio 5- Female Reproductive Hormones
Bio 5- Embryology |
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