NS 102 • Final • Science of Nature

Brain I: General Features and Functions

Brain II: Anatomic Parts

Neurons, Glial Cells and Synapses

(NEW) Nervous System

(NEW) Classifications of Neurons

(NEW) Types of Glia

Comeback to NS101

Diffusion I: Introduction

Diffusion II

Passive and Active Transport

Flux I: Introduction

Flux II: The Formula

Flux III: Applying on Macro Sizes

Flux IV: Applying on Micro Sizes

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Cell Membrane - NS101 Recap

Ion Composition of Cells

How Are Ions Transported?

Chemical Potential Energy I

Chemical Potential Energy II

Chemical Potential Energy III

Electric Field

Electric Potential Energy I

Electric Potential Energy II

Electric Potential Energy III

Membrane Potential

Resting Membrane Potential

Nernst Equation I

Nernst Equation II

Eski ve Önemli Bir Hatırlatma

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Introduction to Action Potential I

Introduction to Action Potential II

How Does Action Potential Start?

Steps of Action Potential I: Depolarization

Steps of Action Potential II: Repolarization and Hyperpolarization

Steps of Action Potential III: Recovery to Resting Membrane Potential

Unilateral Flow of Action Potential

RC Circuit: Components

Ohm's Law

Resistivity Law and Another Resistance Formula

What is Conductance?

Modeling the Membrane Potential I: Current

Modeling the Membrane Potential II: Voltage

Modeling the Membrane Potential III: Capacitor

Modeling the Membrane Potential IV: Resistance

Membrane Resistance

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Modeling the AP: Introduction

Batteries and Capacitors

How to Charge a Capacitor?

Capacitance I: General Formula

Capacitance II: Geometric Formula

Capacitance III: Applying Geometric Formula to Axon Membrane

What is Time Constant?

Charging a Capacitor: Graph

Charging a Capacitor: Graph II

Charging a Capacitor: Voltage and Charge Formulas

How to Discharge a Capacitor?

Discharcing a Capacitor: Formulas and The Graph

Charging and Discharging Models of Cell Membrane

Charging and Discharging: Formula Sheet

Space(Length) Constant I: Introduction and The Formula

Space(Length) Constant II: The Graph

How to Terminate AP: Two Mechanisms

Spatial Model of AP

Speed Formula of AP

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AP Unidirectionality: Time Graph

AP Unidirectionality: Distance Graph

Let's Remember The AP Speed

Myelin Sheath I: Introduction

Myelin Sheath II: Effect on Resistance

Myelin Sheath III: Effect on Capacitance

Myelin Sheath IV: Total Effect on Axon

Passive Spread of AP

Resting Membrane Potential I: Introduction

Resting Membrane Potential II: Function of the Na+/K+ Pump

Resting Membrane Potential III: Pump Work for Single Ion

Resting Membrane Potential IV: Total Pump Work for Multiple Ions

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(NEW) Types of Synapses

Synaptic Transmission

(NEW) Neurotransmitters

(Hatırlatma) Nervous System

(NEW) Nerves

(NEW) How Information Is Encoded in Action Potentials

How Does Brain Function?

Neuronal Function

(NEW) Stages of Memory Formation

(NEW) Hebbian Learning and Neuroplasticity

Memory: Introduction

Explicit Memory

Implicit Memory: Priming

Implicit Memory: Classical Conditioning

Implicit Memory: Operant Conditioning

Non-Associative Learning

Hippocampus I

(NEW)Hippocampus and the Case of H.M.

Mechanisms of Memory

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Brain Imaging Methods

(NEW) Imaging Methods: Structural vs. Functional

(NEW) Structural Imaging Methods

(NEW) Imaging Planes

(NEW) Magnetic Resonance Imaging

(NEW) CT vs. MRI

(NEW) Functional Imaging Methods

(NEW) fMRI I: Basic Principles

(NEW) fMRI II: Experimental Design

(NEW) fMRI III: Temporal Resolution

(NEW) fMRI IV: Voxels and Cluster Sizes

(NEW) fMRI V: Effects of Motion

(NEW) Diffusion MRI and Human Connectome

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