![VIDEO solution: Explain why / how each line of code works 6 import math as m 7 import numpy as np 8 import matplotlib.pyplot as plt 9 10 11 x = np.linspace(-5,5,101) VIDEO solution: Explain why / how each line of code works 6 import math as m 7 import numpy as np 8 import matplotlib.pyplot as plt 9 10 11 x = np.linspace(-5,5,101)](https://cdn.numerade.com/ask_previews/823333-3d7c-68aa-75f2-460b2ab774a4_large.jpg)
VIDEO solution: Explain why / how each line of code works 6 import math as m 7 import numpy as np 8 import matplotlib.pyplot as plt 9 10 11 x = np.linspace(-5,5,101)
1 This video will provide an introduction to using Python modules. It will also discuss some features of the math module.
![SOLVED: When imported as an object (as shown in Section 13.3), the resultant object contains data. For example, if we import the math module as object m, then the expression m.e refers SOLVED: When imported as an object (as shown in Section 13.3), the resultant object contains data. For example, if we import the math module as object m, then the expression m.e refers](https://cdn.numerade.com/ask_images/77114a45617c491c9d9f6f40c10cc7ce.jpg)
SOLVED: When imported as an object (as shown in Section 13.3), the resultant object contains data. For example, if we import the math module as object m, then the expression m.e refers
![programme de calcul des resonances du plan de test CEM import numpy... | Download Scientific Diagram programme de calcul des resonances du plan de test CEM import numpy... | Download Scientific Diagram](https://www.researchgate.net/publication/366282696/figure/fig4/AS:11431281108791761@1671601605781/programme-de-calcul-des-resonances-du-plan-de-test-CEM-import-numpy-as-np-import-math.png)