# Difference between revisions of "Kevin Matthew McKay week 4"

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**Click on a large page and it will link to a smaller more readable page (could not figure out how to resize) | **Click on a large page and it will link to a smaller more readable page (could not figure out how to resize) | ||

*[[Image:Img001.jpg|Page 1]] [[Image:Img002.jpg|PAge 2]] [[Image:Img003.jpg]] | *[[Image:Img001.jpg|Page 1]] [[Image:Img002.jpg|PAge 2]] [[Image:Img003.jpg]] | ||

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+ | *How do the steady states depend on the feed rates? | ||

+ | **As feed rates increase, corresponding state variable values increase, but level out at a certain point. | ||

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+ | *How would changing the equation change the dynamics or steady state? | ||

+ | **Well depending on how small either n or c was, the rate of change of steady state could become larger if n or c was very small (below 1) because multiplying by a number below 1 would decrease the larger steady state variable value. |

## Latest revision as of 22:18, 7 February 2013

- BIOL398-03/S13:Week 4
- user:Kevin Matthew McKay
- Image is Laura Terada's graph, (my MATLAB was not working)
Parameters Values q 0.15 u 120 r 1 K 5 V 0.5 ## Questions

- Steady state values (final page has all 3 equations for c. n, and y)
- Click on a large page and it will link to a smaller more readable page (could not figure out how to resize)

- How do the steady states depend on the feed rates?
- As feed rates increase, corresponding state variable values increase, but level out at a certain point.

- How would changing the equation change the dynamics or steady state?
- Well depending on how small either n or c was, the rate of change of steady state could become larger if n or c was very small (below 1) because multiplying by a number below 1 would decrease the larger steady state variable value.

- Steady state values (final page has all 3 equations for c. n, and y)