This is for transport processes homework. I really appreciate your help!

Problem 1. Textbook problem 6.2, but address this problem as parts 6.2 .a,b,\&c as follows: 6.2.a. (5 pts) Calculate for the solution and an estimate for of a protein from the data provided for albumin. 6.2.b. (5 pts) Calculate an estimate of the diffusion coefficient for the new protein. 6.2.c. (5 pts) Calculate an estimate of the molecular weight of the new protein. value of 2.10105cm2s1 6.2 A new protein has been isolated by molecular biologists. Before they can measure its diffusion coefficient at 25C, their instrument breaks and repairs will take six months! The researchers are in a panic because they need this information for a paper they are writing. The biologists do know that the molecule is spherical and has a radius of 12nm. Before the instrument broke, they measured the diffusion coefficient of albumin (R=3nm and MW =68,000) as 6.8107cm2s1. Calculate the diffusion coefficient of the new protein. Problem 1. Textbook problem 6.2, but address this problem as parts 6.2 .a,b,\&c as follows: 6.2.a. (5 pts) Calculate for the solution and an estimate for of a protein from the data provided for albumin. 6.2.b. (5 pts) Calculate an estimate of the diffusion coefficient for the new protein. 6.2.c. (5 pts) Calculate an estimate of the molecular weight of the new protein. value of 2.10105cm2s1 6.2 A new protein has been isolated by molecular biologists. Before they can measure its diffusion coefficient at 25C, their instrument breaks and repairs will take six months! The researchers are in a panic because they need this information for a paper they are writing. The biologists do know that the molecule is spherical and has a radius of 12nm. Before the instrument broke, they measured the diffusion coefficient of albumin (R=3nm and MW =68,000) as 6.8107cm2s1. Calculate the diffusion coefficient of the new protein