Dashboard
Python For Mechanical Engineers
This course focuses on solving Mechanical Field problems using Python and why Python is essential for mechanical engineers
Lifetime Access to Projects & Videos
Training on Industrial Projects
Downloadable Resources
Access on mobile and laptop
Completion Certificates
Instructor : Shriram Kakade
- 1.1 Course Introduction and Content locked
- 1.2 Install Python locked
- 1.3 Anaconda Install locked
- 2.1 Python Basic locked
- 2.2 Loops in Python - For Loop locked
- 2.3 Loops in Python - IF Loop locked
- 2.4 Loops - While Loop locked
- 2.5 Functions locked
- 3.1 Introduction to Numpy Library locked
- 3.2 Numpy L2 locked
- 3.3 Numpy L3 locked
- 4.1 Matplotlib - Simple Plots locked
- 4.2 Figures and Axes locked
- 4.3 Subplots in Matplotlib locked
- 4.4 2D Contour Plot locked
- 4.5 3D Surface Plot locked
- 4.6 GridSpecs locked
- 5.1 Analyzing Projectile Motion locked
- 5.2 Generate Mohr Circle locked
- 5.3 Shear Force and Bending Moment Diagram locked
- 5.4 Python Program for Fatigue Calculation locked
- 5.5 Failure Theory - Von Mises Stress Theory locked
- 5.6 Kinematics of slider crank locked
- 6.1 Solution to Ordinary Differential Equation Sci locked
- 6.2 Vibration of SDOF Problem Using odeint locked
- 6.3 Frequency Response locked
- 6.4 Calculating Natural Frequency of MDOF locked
- 6.5 Plot the Frequency Response of MDOF locked
- 7.1 Stream plot of Potential Flow locked
- 7.2 Flow Over Cylinder Streamline locked
- 7.3 Flow Over Cylinder Pressure Distribution locked
- 7.4 Diesel Cycle Simulation locked
- 7.5 1D Heat Equation locked
- 7.6 Temperature Distribution in 2D Plate locked
- 8.1 Numerical Methods - Newton Raphson Method locked
- 8.2 Optimization Minima of the Function locked
- 8.3 LPP Simplex Method locked
- 8.4 Interpolation using SciPy locked
- 9.1 Pendulum Animation locked