Create a flowchart based on the code below. _____ def mat_operations(K,J): if (K.shape != J.shape): print('The shape of both matrices are not the same. You will not able to perform operations') elif (K.shape == J.shape): print('The matrices are viable.') else: print('The matrix is empty') K = np.array([ [2,8,7], [-2,4,6], [6,8,6] ]) J = np.array([ [3,3,3], [2,4,2], [5,6,6] ]) L = np.array([ [7,-3,13], [0,9,-2], [-5,1,8], [-10, 0, 1], ]) M = np.array([ [2,-5,-11,0], [-9,4,6,13], [4,7,12,-2], ]) N = np.array([ [1,4,5,12], [-5,8,9,0], [-6,7,11,19] ]) ksum = K + J print('The sum of the given matrices: \n', ksum) mat_operations(K,J) kdiff = K - J print('The difference of the given matrices: \n', kdiff) mat_operations(K,J) kmul = np.multiply(K,J) print('The element-wise multiplication of the given matrices: \n', kmul) mat_operations(K,J) kdiv = np.divide(K,J) print('The element-wise division of the given matrices: \n', kdiv) mat_operations(K,J)
Create a flowchart based on the code below.
_____
def mat_operations(K,J):
if (K.shape != J.shape):
print('The shape of both matrices are not the same. You will not able to perform operations')
elif (K.shape == J.shape):
print('The matrices are viable.')
else:
print('The matrix is empty')
K = np.array([
[2,8,7],
[-2,4,6],
[6,8,6]
])
J = np.array([
[3,3,3],
[2,4,2],
[5,6,6]
])
L = np.array([
[7,-3,13],
[0,9,-2],
[-5,1,8],
[-10, 0, 1],
])
M = np.array([
[2,-5,-11,0],
[-9,4,6,13],
[4,7,12,-2],
])
N = np.array([
[1,4,5,12],
[-5,8,9,0],
[-6,7,11,19]
])
ksum = K + J
print('The sum of the given matrices: \n', ksum)
mat_operations(K,J)
kdiff = K - J
print('The difference of the given matrices: \n', kdiff)
mat_operations(K,J)
kmul = np.multiply(K,J)
print('The element-wise multiplication of the given matrices: \n', kmul)
mat_operations(K,J)
kdiv = np.divide(K,J)
print('The element-wise division of the given matrices: \n', kdiv)
mat_operations(K,J)
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