Biomedical & Industrial Engineering: Crash Course Engineering #6

CrashCourse
21 Jun 201810:27

Summary

TLDRThis video explores key branches of engineering, focusing on industrial and biomedical engineering. It highlights the history of industrial engineering, with Frederick Winslow Taylor's contributions to scientific management and the role of assembly line optimization. Biomedical engineering is introduced through its applications in healthcare, from artificial limbs to advanced medical devices like MRI and CT scans. The video emphasizes the interdisciplinary nature of engineering, combining fields like mechanical, electrical, and materials science to solve complex problems, such as designing a fully functional artificial leg.

Takeaways

  • 🏙️ Engineering has a rich history, including the development of civil, mechanical, electrical, and chemical engineering.
  • 🚀 Aerospace engineering naturally evolved from mechanical engineering and handles the design of air and spacecraft.
  • 🌍 Environmental engineering focuses on solving environmental problems using engineering practices, biology, and chemistry.
  • 🏭 Industrial engineers optimize systems, especially in manufacturing, to improve efficiency by considering both human and machine elements.
  • 🛠️ Frederick Winslow Taylor, the father of industrial engineering, introduced 'time study' to improve factory efficiency.
  • 🦾 Biomedical engineering applies engineering principles to biology and medicine, focusing on healthcare advancements like artificial limbs and medical devices.
  • 🧬 Biomedical engineers need to understand biology, mechanical and electrical engineering, materials science, and chemistry.
  • 📟 Technologies like MRI, CT scans, pacemakers, and defibrillators are all advancements in biomedical engineering.
  • 🔬 Biomedical engineering took off after World War II, with major growth due to advancements in computers and medical imaging.
  • 🦿 Creating a functional artificial limb requires strong materials, power sources, electrical engineering, and replicating biological features like cartilage and synovial fluids.

Q & A

  • What are the four main branches of engineering mentioned in the script?

    -The four main branches of engineering mentioned are Civil, Mechanical, Electrical, and Chemical engineering.

  • How does aerospace engineering relate to mechanical engineering?

    -Aerospace engineering is a natural progression from mechanical engineering, as it handles the design and construction of air and spacecraft, which are machines that can fly.

  • What is the primary focus of environmental engineering?

    -Environmental engineering focuses on using engineering practices, soil science, biology, and chemistry to find solutions to environmental problems.

  • What is the main goal of industrial engineering?

    -The main goal of industrial engineering is to devise efficient systems by considering various elements such as workers, materials, energy flow, and communication.

  • Who is considered the father of industrial engineering and scientific management?

    -Frederick Winslow Taylor is considered the father of industrial engineering and scientific management.

  • What is the concept of 'lights-out manufacturing' mentioned in the script?

    -'Lights-out manufacturing' refers to factories and manufacturing operations that can run without the physical presence of humans to operate or oversee them.

  • What is the difference between biomedical engineering and bioengineering?

    -Biomedical engineering specifically applies engineering skills and principles to biology and medicine for healthcare purposes, focusing on human and animal biology. Bioengineering is a broader term that can include other biological systems like plants.

  • What is one of the earliest examples of biomedical engineering mentioned in the script?

    -One of the earliest examples of biomedical engineering mentioned is the 3,000-year-old wooden and leather prosthetic toe found on an Egyptian mummy.

  • What are some of the modern technologies biomedical engineering is responsible for?

    -Modern technologies biomedical engineering is responsible for include artificial limbs and organs, defibrillators, pacemakers, MRI and CT scans, and insulin pumps.

  • What are some of the major challenges biomedical engineers are currently tackling?

    -Some major challenges biomedical engineers are tackling include biological modeling, drug delivery, and understanding how the body reacts to implanted biomachines.

  • What is the significance of the University of Pennsylvania's Ph.D. Program of Biomedical Electronic Engineering in the history of biomedical engineering?

    -The University of Pennsylvania's Ph.D. Program of Biomedical Electronic Engineering, established in 1961, was the first of its kind in the United States and marked a significant step towards the formal establishment of biomedical engineering as a field.

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Related Tags
Engineering HistoryIndustrial SystemsBiomedical TechArtificial LimbsScientific ManagementAerospaceMedical AdvancementsAutomationSTEM EducationEngineering Disciplines