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Crash course - engineering (What is engineering? (Specific applications…
Crash course - engineering
What is engineering? (overview of major subfields)
What is engineering?
Civil engineering
Mechanical engineering
The history of electrical engineering
The history of chemical engineering
Biomedical and industrial engineering
Thermodynamic and engines
The law of conservation
Reversibility & irreversibility
The first & zeroth laws of thermodynamics
Why we can't invent the perfect engine
Heat engines, refrigerators, and cycles
Momentum, heat, and mass transfer
Stress, strain, & quicksand
Fluid flow & equipment
Heat transfer
How not to set your pizza on fire
drugs, dyes, and mass transfer
mass separation
Materials
Reaching breaking point
Metals & ceramics
The polymer explosion
Electrical power, conductors, and your dream home
Sillicon, semiconductors, & solar cells
The mighty power of nanomaterials
Biomaterials
DIsasters and systems to prevent them
Cheese, catastrophes, and process control
Skyscrapers, statics, and dynamics
Engineering ethics
Flirting with disaster - the importance of safery
Preventing flint - environmental engineering
What is engineering? (Specific applications and grand challenges)
The engineering challenges of renewable energy
The future of clean energy
Why it's so hard to make better batteries
How engineering robots works
To the moon & mars
Computer engineering and the end of moore's law
How engineering health - drug discovery & delivery
Smart tatoos & tiny robots
Challenging the blueprint of life
Mass-producing ice cream with food engineering
How the leaning tower of pisa was saved
Why moving people is complicated
YouTube couldn't exist without communications and signal processing
How seawater sabotages ships
Building a desalination plant from scratch
The future of engineering
How to become an engineer
The biggest problems we're facing today & the future of engineering