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+///Chapter No 7 Fluid Mechanics

+///Example 7.10 Page No:119

+/// Find Kinematic viscosity

+//Input data

+clc;

+clear;

+//import math

+A=120*10^-3;        //Side of square plate in mm

+W=30;                //Side weight in N

+du=3.75;             //Uniform velocity in m/s

+theta=30;            //Lubricated inclined plane making an angle in degree at horizontal

+dy=6*10^-3;         //Thickness lubricating oil film in mm

+rho=800;             //Lubricating oil film density in Kg/m**3

+

+

+//Calculation

+sin30=0.5;                    

+F=W*sin30;            //Component of force in N

+tau=(F/(A**2));       //Shear stress in Ns/m**2 

+mu=tau/(du/dy);     //From Newton's law of Shear stress in Ns/m**2 

+V=(mu/rho)*10^3;     //Kinematic viscosity in m**2/s

+

+

+///Output

+printf('Component of force=%f N \n ',F);

+printf('Shear stress=%f Ns/m^2 \n ',tau);

+printf('From Newtons law of Shear stress=%f Ns/m^2 \n  ',mu);

+printf('Kinematic viscosity= %f m^2/s \n ',V);