Expansion of expressions involving Einstein summation convention with Levi-Civita tensors
Dear all
I am evaluating expressions of the type
where all the subindices , and the dot on the variable , , symbolizes the time derivative.
I’d be interested in being able to ask MatLab for the fully expanded , , and , so I can then numerically evaluate those terms. Ideally, it would be a plus if it also gave me the monstrous explicit expressions in LaTeX and/or could extrapolate the expanded expression to C++.
Do you have any ideas on how I could do this?Dear all
I am evaluating expressions of the type
where all the subindices , and the dot on the variable , , symbolizes the time derivative.
I’d be interested in being able to ask MatLab for the fully expanded , , and , so I can then numerically evaluate those terms. Ideally, it would be a plus if it also gave me the monstrous explicit expressions in LaTeX and/or could extrapolate the expanded expression to C++.
Do you have any ideas on how I could do this? Dear all
I am evaluating expressions of the type
where all the subindices , and the dot on the variable , , symbolizes the time derivative.
I’d be interested in being able to ask MatLab for the fully expanded , , and , so I can then numerically evaluate those terms. Ideally, it would be a plus if it also gave me the monstrous explicit expressions in LaTeX and/or could extrapolate the expanded expression to C++.
Do you have any ideas on how I could do this? symbolic to numeric expressions, einstein summation convention MATLAB Answers — New Questions
