Please use MATLAB

When laser light is incident on tissue, the tissue acts as a transfer medium that can reflect, absorb, scatter, and transmit various portions of the incident wave of radiation. Diffusion equations can be constructed to describe the propagation of light intensity as a function of distance. Imagine an isotropic light source from a laser fiber within a tissue that can both absorb and scatter light. If the tissue acts as an infinite medium, under conditions of predominant scattering, the light intensity rate, (r) (in W/cm2) at a large distance r from the fiber can be shown to be: 2. - ) With known values: D-3.3667, and ,-0.1 cm-1. s the light intensity at the source Define a function f(r) that can be used to find the distance from the light source where light intensity rate (d(r)) reaches 10% of the source. a. b. Piotr vs. (r) and use the graph to provide a good estimate of two starting points for the Method of False Position: (ri f) and (r2 fz) Hint: r should be greater no smaller than 0.15. Use the Method of False Position (Linear Interpolation) to solve for r using your points from part (b). Return the full iteration table and use a tolerance tol c. 10-6 cm When laser light is incident on tissue, the tissue acts as a transfer medium that can reflect, absorb, scatter, and transmit various portions of the incident wave of radiation. Diffusion equations can be constructed to describe the propagation of light intensity as a function of distance. Imagine an isotropic light source from a laser fiber within a tissue that can both absorb and scatter light. If the tissue acts as an infinite medium, under conditions of predominant scattering, the light intensity rate, (r) (in W/cm2) at a large distance r from the fiber can be shown to be: 2. - ) With known values: D-3.3667, and ,-0.1 cm-1. s the light intensity at the source Define a function f(r) that can be used to find the distance from the light source where light intensity rate (d(r)) reaches 10% of the source. a. b. Piotr vs. (r) and use the graph to provide a good estimate of two starting points for the Method of False Position: (ri f) and (r2 fz) Hint: r should be greater no smaller than 0.15. Use the Method of False Position (Linear Interpolation) to solve for r using your points from part (b). Return the full iteration table and use a tolerance tol c. 10-6 cm