Physical Simple Pendulum Angular position where 0 = [-90 -60 - 45 - 30 0 30 45 65 90) Find the moment of inertia and viscous damping coefficient from the experimental data with matlab and Using the physical parameters of the real pendulum and the initial conditions of your experiment, perform simulations of the real system in Simulink. Parameters: Gravity Mass Length of the pendulum : g = 9.81 m/s2 : m = 255 gr : 1 = 53.5 cm You can use any data set for solving question but show your data set ntial condiations; intial theta is 65 degree and intial velocity is zero Physical Simple Pendulum Angular position where 0 = [-90 -60 - 45 - 30 0 30 45 65 90) Find the moment of inertia and viscous damping coefficient from the experimental data with matlab and Using the physical parameters of the real pendulum and the initial conditions of your experiment, perform simulations of the real system in Simulink. Parameters: Gravity Mass Length of the pendulum : g = 9.81 m/s2 : m = 255 gr : 1 = 53.5 cm You can use any data set for solving question but show your data set ntial condiations; intial theta is 65 degree and intial velocity is zero