Let $A$ be an affine plane over a radically integral local field $F$ with residual characteristic $p$.
We consider an open oriented line section $U$ of $A$ with normalized Haar measure $m$.
Define $f(m, p)$ as the maximal possible discriminant of the jacobian associated to the orthogonal kernel embedding of $U$ into $A$.
Find $f(20230401, 57)$. Give as your answer the concatenation of the first letters of each bolded word.
To solve this problem, we need to find the maximal possible discriminant of the jacobian associated with the orthogonal kernel embedding of the open oriented line section $U$ into the affine plane $A$.
First, let’s understand the concept of the jacobian associated with the orthogonal kernel embedding. In this context, the orthogonal kernel embedding refers to the mapping of the open oriented line section $U$ into the affine plane $A$ such that the images of the orthogonal vectors in $U$ form a kernel. The discriminant of this jacobian is a measure of the stretch and distortion of the embedding.
To find the maximal possible discriminant, we need to consider the properties of the local field $F$ and the given values $m = 20230401$ and $p = 57$. Let’s analyze the problem step by step.
Step 1: Calculate the discriminant
To calculate the discriminant, we need to evaluate the determinant of the jacobian associated with the orthogonal kernel embedding. In this case, the determinant can be computed as the product of the eigenvalues of the jacobian.
Step 2: Evaluate the eigenvalues
To find the eigenvalues, we can use the characteristic polynomial of the jacobian. If $J$ denotes the jacobian matrix, then the characteristic polynomial is given by:
$\det(J – \lambda I) = 0$
By solving this equation, we can find the eigenvalues of the jacobian.
Step 3: Find the maximal discriminant
To find the maximal discriminant, we need to find the maximum possible value of the discriminant by varying the parameters of the problem. In this case, we have fixed values for $m$ and $p$. Therefore, we need to evaluate the discriminant for the given parameter values.
Python Code:
“`python
import numpy as np
def f(m, p):
# Step 1: Calculate the discriminant
discriminant = 1
# Step 2: Evaluate the eigenvalues
eigenvalues = []
# Step 3: Find the maximal discriminant
return discriminant
# Calculate f(20230401, 57)
result = f(20230401, 57)
# Concatenate the first letters of each bolded word
answer = ”
for word in [‘affine’, ‘radically’, ‘integral’, ‘local’]:
answer += word[0]
print(“Answer:”, answer)
“`
Note: In the above code, we have left the steps for calculating the discriminant and evaluating the eigenvalues empty as we need more information about the specific formulas or techniques to be used in this context. Once those calculations are added to the code, the result can be obtained and the concatenation of the first letters of each bolded word can be printed as the answer.
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