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13 Nov 2019
1. Explain why the IVP (DM) dt whereã, β and Ko are positive constants, fits the above assumptions, by answering the following questions. (If a question contains blanks, it's acceptable for your answers to simply contain the words or expressions that you would use to fill in these blanks Please separate responses to separate blanks with commas dK/dt of to the difference between the external concentration and the internal concentration K. So, as stipulated in the assumption (i) The DE in the IVP (DM) states that the rate of K is as K gets closer to thanã. (C) above, dK/dt will get (ii) Assumption (B) tells us that Ko is (iii) Which of the above constantsã, B, Ko does it make most sense to call the diffusion rate? Please explain
1. Explain why the IVP (DM) dt whereã, β and Ko are positive constants, fits the above assumptions, by answering the following questions. (If a question contains blanks, it's acceptable for your answers to simply contain the words or expressions that you would use to fill in these blanks Please separate responses to separate blanks with commas dK/dt of to the difference between the external concentration and the internal concentration K. So, as stipulated in the assumption (i) The DE in the IVP (DM) states that the rate of K is as K gets closer to thanã. (C) above, dK/dt will get (ii) Assumption (B) tells us that Ko is (iii) Which of the above constantsã, B, Ko does it make most sense to call the diffusion rate? Please explain
Bunny GreenfelderLv2
3 Nov 2019