As you may or may not know, the formula for the uncertainty in a variable defined by some function is given by:
I want to create a python function that does this for me. This is what I currently have:
import sympy as sp from sympy import lambdify, symbols,diff L,g = symbols('L g', real=True) value_of_var = [5.4,9.8] # Arbitrary values for L and g uncertainty_in_var = [0.3, 0.1] function = 2*sp.pi*sp.sqrt(L/g) #Period of pendulum (purely for test purposes) variables = [L,g] def uncertainty_calculator(function): partials = [diff(function,x) for x in variables] #Takes partial derivatives of variables partial_times_uncertainty = [(x*y)**2 for x,y in zip(uncertainty_in_var,partials)] #Squares the product of the uncertainty and its respective partial uncertainty = lambdify(variables, sp.sqrt(sum(partial_times_uncertainty))) number = uncertainty(value_of_var,value_of_var) return number uncertainty = uncertainty_calculator(function) print(uncertainty)
I'm pretty sure this works fine for this specific function, however, I want to generalize it more, I want it to take in a list of values, the uncertainty of those values, and a function, and give me the uncertainty. The problem im having is that if my variables already have a value, then the function is evaluated to a number, and because of this I just get zero when trying to calculate the partial derivatives, this is fixed by the
symbols('L g', real=True) line which keeps the function unevaluated until it gets to the lamdify part. Does anyone know how this can be done, having a function like this would really help with my labs as calculating that function by hand is a real pain.