Menu
|
111-222-292 (Ext: 245)
Home
|
About US
|
Creditors
|
Mentorship
|
Faq
Home
About US
Creditors
Mentorship
Faq
Lecture
SEARCH COURSES / LECTURES
Search Lectures
Search Courses
All Disciplines
Basic and Health Sciences
Biology
Chemistry
Mathematics
Physics
Medicine
Test Prep
Applied Sciences
Agricultural Science
Computer Science
Earth, Atmospheric, and Planetary Sciences
Energy
Engineering
Healthcare
Social Sciences
Business and Finance
Economics
English
History
Arts and Humanities
Law
Literature and Linguistics
Management
Marketing
Mass Communication
Philosophy
Physical Education
Political Science
Psychology
Sociology
All Levels
Undergraduate
School
College
Graduate
All Institutes
Harvard
Khan Academy
Khan Academy Urdu
MIT
Oxford
Stanford
UCI Open
Udacity
Virtual Education Project Pakistan (VEPP)
Virtual University
Yale University
Home
>>
Engineering
>>
Materials Science and Engineering (M-I-T)
>>
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
(39 Lectures Available)
S#
Lecture
Course
Institute
Instructor
Discipline
26
The BJT: Currents in Forward Active Mode (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
27
The BJT: Forward Active Mode (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
28
The BJT: Other Operation Modes & Summary (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
29
The Depletion Approximation & Summary (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
30
The Ideal Diode Equation: Diffusion Flux (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
31
The Junction Field Effect Transistor (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
32
The MOS Field Effect Transistor (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
33
The pn Junction Under Bias: Summary (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
34
The pn Junction: Forward Bias (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
35
The pn Junction: Reverse Bias (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
36
The pn Junction: Unbiased Case (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
37
Time Dependence of Carrier Concentration (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
38
Total Number of Electrons and Holes (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
39
Transistors: Overview (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
‹
1
2
›
Basic and Health Sciences
Biology
Chemistry
Mathematics
Physics
Medicine
Test Prep
Applied Sciences
Agricultural Science
Computer Science
Earth, Atmospheric, and Planetary Sciences
Energy
Engineering
Healthcare
Social Sciences
Business and Finance
Economics
English
History
Arts and Humanities
Law
Literature and Linguistics
Management
Marketing
Mass Communication
Philosophy
Physical Education
Political Science
Psychology
Sociology
