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applications of chemical engineering


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  1. Temp Thumb

    Engineering (Except Electrical)

    13 COURSES, 48 LECTURES
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    Electrical Engineering

    12 COURSES, 49 LECTURES
  1. Challenges in Manufacturing Solar Energy

    Challenges in Manufacturing Solar Energy

    Stanford / Entrepreneurship
    Larry Bawden

    Larry Bawden addresses the challenges in producing Solar Energy on a commercial scale. He highlights the capital intensive requirements in this field. He also notes the importance of precise nano-engineering in the manufacturing process.

  2. Chemical Energy and Work

    Chemical Energy and Work

    Berkeley / Chemistry
    Kristie Boering

  3. Chemical Equilibrium

    Chemical Equilibrium

    MIT / Chemistry
    Keith Nelson
    Moungi Bawendi

  4. Chemical Equilibrium

    Chemical Equilibrium

    MIT / Chemistry
    Catherine Drennan

    Professor Sylvia Ceyer discusses the nature of chemical equilibrium as it relates to free energy, the reaction quotient, and the relationship between K and Q. The meaning of K is further clarified and the external effects on K are identified, from adding and removing reagents to changes associated with the Principle of Le Chatelier.

  5. Chemical Equilibrium (cont.)

    Chemical Equilibrium (cont.)

    MIT / Chemistry
    Catherine Drennan

    Professor Sylvia Ceyer continues her discussion on chemical equilibrium and external effects such as a change in volume, adding inert gas, and a change in temperature. Parameters are set for maximizing the yield of a reaction, and the Principle of Le Chatelier's is returned to. Hemoglobin is used as an example involved in a series of equilibrium reactions in response to oxygen pressure.

  6. Chemical Kinetics: The Rate Equation, Order of Reaction, Rate Laws

    Chemical Kinetics: The Rate Equation, Order of Reaction, Rate Laws

    MIT / Chemistry
    Donald R. Sadoway

  7. Chemical Reactivity: SOMO, HOMO, and LUMO

    Chemical Reactivity: SOMO, HOMO, and LUMO

    Yale / Chemistry
    J Michael McBride

    Professor McBride begins by using previous examples of "pathological" bonding and the BH3 molecule to illustrate how a chemist's use of localized bonds, vacant atomic orbitals, and unshared pairs to understand molecules compares with views based on the molecule's own total electron density or on computational molecular orbitals. This lecture then focuses on understanding reactivity in terms of the overlap of singly-occupied molecular orbit...more

  8. Chemically Dependent Agriculture

    Chemically Dependent Agriculture

    Yale / Environmental Studies
    John Wargo

    Environmental Politics and Law (EVST 255) The change from smaller, more diverse farms to larger single-crop farms in the US has led to greater reliance on pesticides for pest management. Other changes as the US food system becomes more commercialized include: increased use of additives, higher food prices, more water and energy consumption for agriculture, and more pesticide residues entering food through processing. Pesticides have als...more

  9. Circuits and Electronics

    Circuits and Electronics

    MIT / Electrical Engineering
    Anant Agarwal

    This course is designed to serve as a first course in an undergraduate electrical engineering (EE), or electrical engineering and computer science (EECS) curriculum. The course introduces the fundamentals of the lumped circuit abstraction. Topics covered include: resistive elements and networks; independent and dependent sources; switches and MOS transistors; digital abstraction; amplifiers; energy storage elements; dynamics of first- ...more

  10. Client Use of Templates

    Client Use of Templates

    Stanford / Computer Science
    Julie Zelenski

    Client Use of Templates, Vector Class, Vector Client Interface, Client Use of Vector, Type-safety in Templates, Grid Class, Grid Client Interface, Client Use of Grid, Stack Class, Stack Client Interface, Queue Class, Queue Client Interface, Client Use of Queue, Nested Templates, Learning a New API, CS106B Library Documentation

  11. Coding with Linked List

    Coding with Linked List

    Stanford / Computer Science
    Julie Zelenski

    Coding with Linked List, Printing the List, Using Recursion to Print List, De-allocating the Memory Used for the Linked List, Watch the Pointers: Prepend Function, Passing Pointers by Reference, Array vs Linked List, Insert in Sorted (order) Linked List, Insert in Sorted Order: Code, Recursive Insert

  12. Common Mistakes Stumbled Upon: 'I'terator

    Common Mistakes Stumbled Upon: 'I'terator

    Stanford / Computer Science
    Julie Zelenski

    Stumbled Upon: 'I'terator, Common Mistakes Stumbled Upon: Concatenating Strings, Solving Problems Recursively, Functional Recursion, Example of Recursion: Calculating Raise to Power, Demo of "Raise to the Power Example" Through Live Coding, Mechanics of What s Going to Happen in Recursion, More Efficient Recursion, Being Wary of Too Many Base Cases, Recursion & Efficiency, Example: Palindromes, Example: Binary Search, Binary Search Code W...more