Зміст курсу
Mathematics for Data Analysis and Modeling
Mathematics for Data Analysis and Modeling
Numerical Operations on Vectors and Matrices
Numerical operations on vectors
In Python, numerical operations on vectors can be performed using various libraries such as NumPy. NumPy provides efficient and convenient functions for vectorized operations, making it easy to perform calculations on vectors.
Here are some common numerical operations on vectors, along with examples in Python:
Addition
Adding two vectors together element-wise.
import numpy as np a = np.array([1, 2, 3]) b = np.array([4, 5, 6]) c = a + b print(c)
Subtraction
Subtracting one vector from another element-wise.
import numpy as np a = np.array([1, 2, 3]) b = np.array([4, 5, 6]) c = a - b print(c)
Scalar Multiplication
Multiplying a vector by a scalar value.
import numpy as np a = np.array([1, 2, 3]) b = 2 c = a * b print(c)
Dot Product
Computing the dot product between two vectors.
The dot product of two vectors is a mathematical operation that yields a scalar value.
The dot product of two vectors u
and v
is calculated by taking the sum of the products of their corresponding components:
u · v = u₁ * v₁ + u₂ * v₂ + u₃ * v₃ + ... + uₙ * vₙ
import numpy as np a = np.array([1, 2, 3]) b = np.array([4, 5, 6]) c = np.dot(a, b) # Dot Product = 1*4 + 2*5 + 3*6 print(c)
Operations on matrices
Now let's consider numerical operations on matrices.
Addition and subtraction
Matrices and vectors of the same shape can be added or subtracted element-wise.
import numpy as np A = np.array([[1, 2], [3, 4]]) B = np.array([[5, 6], [7, 8]]) S = A + B D = A - B print(S) print(D)
Scalar Multiplication and Division
Each element of a matrix or vector can be multiplied or divided by a scalar value. Example in Python:
import numpy as np A = np.array([[1, 2], [3, 4]]) scalar = 2 B = scalar * A # Scalar multiplication C = A / scalar # Scalar division print(B) print(C)
Matrix Multiplication
Multiplication of two matrices is a binary operation combining two matrices to produce a new matrix. To compute the result of the multiplication of two matrices, the number of columns in the first matrix must equal the number of rows in the second matrix.
The dot product of matrices is calculated by taking the dot product of corresponding rows from the first matrix and columns from the second matrix.
The resulting matrix will have the same number of rows as the first matrix and the same number of columns as the second matrix.
The process of matrix multiplication can be visualized as follows:
Example
import numpy as np # Define matrices A and B A = np.array([[1, 2, 3], [4, 5, 6]]) # Matrix A with shape `(2, 3)` B = np.array([[7, 8], [9, 10], [11, 12]]) # Matrix B with shape `(3, 2)` # Perform dot product of matrices A and B C = np.dot(A, B) # Resulting matrix C with shape `(2, 2)` # Print the resulting matrix C print("Resulting matrix C (A dot B):") print(C) # Element-wise calculation of `C[0, 0]` # c11 = 1*7 + 2*9 + 3*11 print("C[0, 0] = 1*7 + 2*9 + 3*11 =", C[0, 0]) # Element-wise calculation of `C[0, 1]` # c12 = 1*8 + 2*10 + 3*12 print("C[0, 1] = 1*8 + 2*10 + 3*12 =", C[0, 1]) # Element-wise calculation of `C[1, 0]` # c21 = 4*7 + 5*9 + 6*11 print("C[1, 0] = 4*7 + 5*9 + 6*11 =", C[1, 0]) # Element-wise calculation of `C[1, 1]` # c22 = 4*8 + 5*10 + 6*12 print("C[1, 1] = 4*8 + 5*10 + 6*12 =", C[1, 1])
Note
Pay attention that matrix multiplication operation is not commutative. In general case,
A * B != B * A
.
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