4. Matrix models can be used to describe the flow of certain toxins, like lead, between compartments of a biological system. For example, lead enters the human body by inhaling or ingesting lead particles. These particles are diffused into the tissue such as kidney and liver and into the bloodstream. Let Xn represent the amount of lead in the blood ( in micrograms) and let Yn represent the amount in the tissue at the start of a certain month. A model for calculating the levels a month later is given by (Xn+¹) = (.39:04) ( Y

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4. Matrix models can be used to describe the flow of certain toxins , like lead, between compartments of a biological system . For example, lead enters the human body by inhaling or ingesting lead particles. These particles are diffused into the tissue such as kidney and liver and into the bloodstream. Let Xn represent the amount of lead in the blood ( in micrograms ) and let Yn represent the amount in the tissue at the start of a certain month. (Xn+1 Yn+: .39 .04) (Xn A model for calculating the levels a month later is given by G**1) = (04 02)E .04 a. Find the fraction of lead in the system that will be in the blood and in the tissues in the long run . b. Find a formula that gives the amount Xn and Yn for any month. Since you do not have an initial condition, you will find equations that measure the amounts for any starting value. X, = Yn = %3D