Question: How would I approach this in Python and can the code be explained in each step? Thank you Problem #4 Consider the truss shown below
How would I approach this in Python and can the code be explained in each step?
Thank you
Problem #4 Consider the truss shown below with loads Pi = 30 kN and P2 = 15 kN. Applying static equilibrium in both the x and y directions at each joint, derive the system of linear algebraic equations to be solved for the forces in each mem- ber of the truss. Solve the matrix form of this system of equations using an appropriate built-in function in Python, MATLAB, or Mathematica. Clearly indicate whether each member is in tension or compression. PF O - 3 m 3 m Problem #4 Consider the truss shown below with loads Pi = 30 kN and P2 = 15 kN. Applying static equilibrium in both the x and y directions at each joint, derive the system of linear algebraic equations to be solved for the forces in each mem- ber of the truss. Solve the matrix form of this system of equations using an appropriate built-in function in Python, MATLAB, or Mathematica. Clearly indicate whether each member is in tension or compression. PF O - 3 m 3 m
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