pls attach Matlab code

2. (a) Estimate the hourly beam radiation (Ion) on the aperture of a collector which rotates continuously about a horizontal south-north axis so as to track the sun. The database of hourly normal-incidence radiation, measured with a pyrheliometer and integrated over the hour, on December 1, 2019 at the place (121E, 22N) is given blow Hour (solar time) Ion (MJ/m) 8-9 0.02 9-10 0.70 10-11 1.32 11-12 2.85 12-1 2.80 1-2 2.04 2-3 0.95 3-4 0.06 (b) Re-do Part (a) by using all the incident solar radiation which would not be interfered by the atmosphere. (c) How much solar radiation (in %) irradiated from the sun can be actually received by this single-axis collector from 8:00 to 16:00 on December 1, 2019? Assume all the beam radiation arriving on the aperture of this collector can be concentrated and fully collected for use. (30 points) 2. (a) Estimate the hourly beam radiation (Ion) on the aperture of a collector which rotates continuously about a horizontal south-north axis so as to track the sun. The database of hourly normal-incidence radiation, measured with a pyrheliometer and integrated over the hour, on December 1, 2019 at the place (121E, 22N) is given blow Hour (solar time) Ion (MJ/m) 8-9 0.02 9-10 0.70 10-11 1.32 11-12 2.85 12-1 2.80 1-2 2.04 2-3 0.95 3-4 0.06 (b) Re-do Part (a) by using all the incident solar radiation which would not be interfered by the atmosphere. (c) How much solar radiation (in %) irradiated from the sun can be actually received by this single-axis collector from 8:00 to 16:00 on December 1, 2019? Assume all the beam radiation arriving on the aperture of this collector can be concentrated and fully collected for use. (30 points)