NS 102 • Final • Science of Nature
“Ders gayet güzel organize edilmiş ve tam olarak hocaların beklediği kazanımlar verilmiş.”
Serhat Eren
Sanat ve Sosyal Bilimler Programları
Nerve Cells, Flux, Chemical and Electrical Potentials, Nerst Equation, Action Potential, RC Circuits, Time and Space Constants, Myelin Effect, Resting Potential, Synapses, Brain Imaging, Learning and Memory gibi konuları akıcı ve hızlı bir anlatımla öğrenip, özenle seçilmiş çıkmış sınav sorularını çözdüğümüz kursumuzla istediğin notlara ulaşabilirsin.
Püf noktaları veya tamamen konuları unutmuş olabilirsin ama dert etme. Kısa bir süre içerisinde midterm'e hazır olacaksın.
Eğitmen
İbrahim Halil Sunay
Eğitmen
Lise yıllarımdan beri üniversite düzeyinde dersler anlatıyorum. Bu dönemde Biyoloji Olimpiyatları’na hazırlanarak Türkiye genelinde 3.’lük ve 1.’lik dereceleri elde ettim. Üniversiteye başladığımdan beri çeşitli e-eğitim platformlarında içerik üretiyorum. Uzun süredir aklımda olan üniversite dersleri için çevrim içi eğitim fikrini, Unicourse ekibiyle birlikte hayata geçiriyoruz. Üniversite sınavında ilk 50 öğrenci arasında yer alarak Koç Üniversitesi Tıp Fakültesi’ni kazandım ve şu anda aynı fakültede son sınıf öğrencisiyim.
Paketi Tamamla
🎓 Sabancı Üniversitesinde öğrencilerin %92'si tüm paketi alarak çalışıyor.
NS 102 • Midterm
Science of Nature II
İbrahim Halil Sunay
1999 TL
NS 102 • Final
Science of Nature
İbrahim Halil Sunay
1999 TL
Konular
Week-1: Brain, Nerve Cells and Flux
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
Exam-like Questions: 1
Exam-like Questions: 2
Exam-like Questions: 3
Exam-like Questions: 4
Exam-like Questions: 5
Exam-like Questions: 6
Exam-like Questions: 7
Exam-like Questions: 8
Special Question: 1
Special Question: 2
Special Question: 3
Week-2: Chemical & Electrical Potentials and Nernst Equation
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
Exam-like Questions: 9
Exam-like Questions: 10
Exam-like Questions: 11
Exam-like Questions: 12
Exam-like Questions: 13
Exam-like Questions: 14
Exam-like Questions: 15
Exam-like Questions: 16
Exam-like Questions: 17
Exam-like Questions: 18
Exam-like Questions: 19
Exam-like Questions: 20
Exam-like Questions: 21
Exam-like Questions: 22
Exam-like Questions: 23
Week-3: Action Potential and RC Circuits
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
Exam-like Questions: 24
Exam-like Questions: 25
Exam-like Questions: 26
Exam-like Questions: 27
Exam-like Questions: 28
Exam-like Questions: 29
Exam-like Questions: 30
Exam-like Questions: 31
Exam-like Questions: 32
Exam-like Questions: 33
Exam-like Questions: 34
Exam-like Questions: 35
Exam-like Questions: 36
Exam-like Questions: 37
Week-4: AP Formation and Propagation: Time & Space Constants and Cell Membrane Models
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
Exam-like Questions: 38
Exam-like Questions: 39
Exam-like Questions: 40
Exam-like Questions: 41
Exam-like Questions: 42
Exam-like Questions: 43
Exam-like Questions: 44
Exam-like Questions: 45
Exam-like Questions: 46
Exam-like Questions: 47
Week-5: Neuronal Communication, AP Unidirectionality, Myelinated Axons and Resting Potential
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
Exam-like Questions: 48
Exam-like Questions: 49
Exam-like Questions: 50
Exam-like Questions: 51
Exam-like Questions: 52
Exam-like Questions: 53
Exam-like Questions: 54
Exam-like Questions: 55
Exam-like Questions: 56
Exam-like Questions: 57
Exam-like Questions: 58
Exam-like Questions: 59
Week-6: Synaptic Transmission, Learning and Memory
(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
Exam-like Questions: 60
Exam-like Questions: 61
Exam-like Questions: 62
Exam-like Questions: 63
Exam-like Questions: 64
Exam-like Questions: 65
Exam-like Questions: 66
Exam-like Questions: 67
Exam-like Questions: 68
Exam-like Questions: 69
Exam-like Questions: 70
Exam-like Questions: 71
Exam-like Questions: 72
Exam-like Questions: 73
Exam-like Questions: 74
Week-7: Brain Imaging Methods
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
Exam-like Questions: 75
Exam-like Questions: 76
Exam-like Questions: 77
Exam-like Questions: 78
Exam-like Questions: 79
Sample Final
Sample Final
Question-1
Question-2
Question-3
Question-4
Question-5 part a
Question-5 part b
question 5 part c
Question 6
Question 7
Question 8
Question 9
Question-10
Question-11
Question-12
Question-13
Question-14
(NEW) Sample Final - Spring 2025
Question-1
Question-2
Question-3
Question-4
Question-5
Question-6
Question-7
Question-8
Question-9
Değerlendirmeler
Detaylı konu anlatımı ve birçok praktik çözümü içeriyor, faydal buldum.
Ns gibi zor dersi cok rahat anladim.
Ders İçeriği
Week-1: Brain, Nerve Cells and Flux
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
Exam-like Questions: 1
Exam-like Questions: 2
Exam-like Questions: 3
Exam-like Questions: 4
Exam-like Questions: 5
Exam-like Questions: 6
Exam-like Questions: 7
Exam-like Questions: 8
Special Question: 1
Special Question: 2
Special Question: 3
Week-2: Chemical & Electrical Potentials and Nernst Equation
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
Exam-like Questions: 9
Exam-like Questions: 10
Exam-like Questions: 11
Exam-like Questions: 12
Exam-like Questions: 13
Exam-like Questions: 14
Exam-like Questions: 15
Exam-like Questions: 16
Exam-like Questions: 17
Exam-like Questions: 18
Exam-like Questions: 19
Exam-like Questions: 20
Exam-like Questions: 21
Exam-like Questions: 22
Exam-like Questions: 23
Week-3: Action Potential and RC Circuits
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
Exam-like Questions: 24
Exam-like Questions: 25
Exam-like Questions: 26
Exam-like Questions: 27
Exam-like Questions: 28
Exam-like Questions: 29
Exam-like Questions: 30
Exam-like Questions: 31
Exam-like Questions: 32
Exam-like Questions: 33
Exam-like Questions: 34
Exam-like Questions: 35
Exam-like Questions: 36
Exam-like Questions: 37
Week-4: AP Formation and Propagation: Time & Space Constants and Cell Membrane Models
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
Exam-like Questions: 38
Exam-like Questions: 39
Exam-like Questions: 40
Exam-like Questions: 41
Exam-like Questions: 42
Exam-like Questions: 43
Exam-like Questions: 44
Exam-like Questions: 45
Exam-like Questions: 46
Exam-like Questions: 47
Week-5: Neuronal Communication, AP Unidirectionality, Myelinated Axons and Resting Potential
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
Exam-like Questions: 48
Exam-like Questions: 49
Exam-like Questions: 50
Exam-like Questions: 51
Exam-like Questions: 52
Exam-like Questions: 53
Exam-like Questions: 54
Exam-like Questions: 55
Exam-like Questions: 56
Exam-like Questions: 57
Exam-like Questions: 58
Exam-like Questions: 59
Week-6: Synaptic Transmission, Learning and Memory
(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
Exam-like Questions: 60
Exam-like Questions: 61
Exam-like Questions: 62
Exam-like Questions: 63
Exam-like Questions: 64
Exam-like Questions: 65
Exam-like Questions: 66
Exam-like Questions: 67
Exam-like Questions: 68
Exam-like Questions: 69
Exam-like Questions: 70
Exam-like Questions: 71
Exam-like Questions: 72
Exam-like Questions: 73
Exam-like Questions: 74
Week-7: Brain Imaging Methods
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
Exam-like Questions: 75
Exam-like Questions: 76
Exam-like Questions: 77
Exam-like Questions: 78
Exam-like Questions: 79
Sample Final
Sample Final
Question-1
Question-2
Question-3
Question-4
Question-5 part a
Question-5 part b
question 5 part c
Question 6
Question 7
Question 8
Question 9
Question-10
Question-11
Question-12
Question-13
Question-14
(NEW) Sample Final - Spring 2025
Question-1
Question-2
Question-3
Question-4
Question-5
Question-6
Question-7
Question-8
Question-9
Sıkça Sorulan Sorular
Örneğin, Koç Üniversitesi - MATH 101 (Calculus) veya başka bir okulun benzer dersi olsun, paketlerimiz tam da o derse göre tasarlanır. Böylece nokta atışı çalışır, zaman kazanırsın.
Sınava özel videolar —konu anlatımları, çıkmış sorular ve çözümleri, özet notlar—içerir. Sınavda sıkça çıkan soruları hedefler. Eğitmenlerimiz, üniversitenin akademik takvimini takip ederek paketleri sürekli günceller. Böylece, gereksiz detaylarla vakit kaybetmeden başarını artırmaya odaklanabilirsin.