PODCAST

[Audio] Illinois Physics 498: Introduction to Biological Physics

We will apply simple yet powerful ideas of physics to gain some understanding of biology. (What is the inertia of a bacteria and how does this affect its behavior?) We will begin with atoms, move to molecules, then macromolecules, then cells, and finally whole systems. For example, how do we...

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  1. 10

    Lecture 24: The 4 Molecules of life

    Atoms, Molecules, Macromolecules, you!Amino Acids, Sugars used as signals, Fatty Acids/Lipids

  2. 9

    Lecture 23: Vision

    Summary of Ion Channels, Vision , Visual System, The Eye, Structure of the Eye, Signal Processing, Diffraction and Pupil

  3. 8

    Lecture 21: Nerves

    Ion Channels,Ionic current, Gating current, Digital Ion Channels, Structural studies, X-ray Crystallography

  4. 7

    Lecture 19: Optical Traps - Part2

    Biological application of optical traps, High resolution optical trapping, Brownian noise

  5. 6

    Lecture 20: Diffusion - Part2

    Diffusion and bacteria moving, power consumed by bacteria, Introduction to Reynolds number, Where Bacteria Live, How E. Coli move and swim,

  6. 5

    Lecture 16: Optical Traps - Part 1

    First Optical Trap built, Reflection, Refraction, Brownian motionYann Chemla - Assistant Professor of Physics - University of Illinois at Champaign-Urbana

  7. 4

    Lecture 17: Diffusion - Part 1

    Diffusion, Directed motors, Thermal motion, nerve synapse, Efficiency of Diffusion

  8. 3

    Lecture 11: FIONA (Fluorescence Imaging with One Nanometer Accuracy)

    Fluorescence Imaging with One Nanometer Accuracy, Specificity to look at heads Nanometer spatial localization, Second temporal resolution, Single Molecule sensitivity Single Molecule Photostability

  9. 2

    Lecture 12: Ultra-Resolution

    SHREC (Single molecule High Resolution Co localization), SHRIMP (Super-High Resolution Imaging with Photobleaching), DOPI (Defocused Orientation Position Imaging), PALM (PhotoActivated Localization Microscopy), Enhancing Resolution

  10. 1

    Lecture 14: FRET and Helicase Activity

    FRET: measuring conformational changes of (single) biomolecules, Unzipping mystery of helicases

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ABOUT THIS SHOW

We will apply simple yet powerful ideas of physics to gain some understanding of biology. (What is the inertia of a bacteria and how does this affect its behavior?) We will begin with atoms, move to molecules, then macromolecules, then cells, and finally whole systems. For example, how do we...

HOSTED BY

Paul R Selvin

Produced by nanoHUB.org

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How many episodes does [Audio] Illinois Physics 498: Introduction to Biological Physics have?

[Audio] Illinois Physics 498: Introduction to Biological Physics currently has 10 episodes available on PodParley. New episodes are automatically indexed when they're published to the podcast feed.

What is [Audio] Illinois Physics 498: Introduction to Biological Physics about?

We will apply simple yet powerful ideas of physics to gain some understanding of biology. (What is the inertia of a bacteria and how does this affect its behavior?) We will begin with atoms, move to molecules, then macromolecules, then cells, and finally whole systems. For example, how do we...

How often does [Audio] Illinois Physics 498: Introduction to Biological Physics release new episodes?

[Audio] Illinois Physics 498: Introduction to Biological Physics has 10 episodes. Check the episode list to see recent publication dates and frequency.

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Who hosts [Audio] Illinois Physics 498: Introduction to Biological Physics?

[Audio] Illinois Physics 498: Introduction to Biological Physics is created and hosted by Paul R Selvin.
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