From 7c66b227a494748e2a546fb85317accd00aebe53 Mon Sep 17 00:00:00 2001
From: Justin Gassner <justin.gassner@mailbox.org>
Date: Thu, 15 Feb 2024 05:11:07 +0100
Subject: Update

---
 pages/unbounded-operators/adjoint-operators.md          | 1 -
 pages/unbounded-operators/hellinger-toeplitz-theorem.md | 2 +-
 2 files changed, 1 insertion(+), 2 deletions(-)

(limited to 'pages/unbounded-operators')

diff --git a/pages/unbounded-operators/adjoint-operators.md b/pages/unbounded-operators/adjoint-operators.md
index 1b9fb0c..96933db 100644
--- a/pages/unbounded-operators/adjoint-operators.md
+++ b/pages/unbounded-operators/adjoint-operators.md
@@ -10,4 +10,3 @@ description: >
 ---
 
 # {{ page.title }}
-
diff --git a/pages/unbounded-operators/hellinger-toeplitz-theorem.md b/pages/unbounded-operators/hellinger-toeplitz-theorem.md
index fea54be..09046f4 100644
--- a/pages/unbounded-operators/hellinger-toeplitz-theorem.md
+++ b/pages/unbounded-operators/hellinger-toeplitz-theorem.md
@@ -18,7 +18,7 @@ Conventions:
 - Operators are linear and possibly unbounded.
 
 Recall that an operator $T : D(T) \to \hilb{H}$ in a Hilbert space $\hilb{H}$
-is called *symmetric*, if is has the property
+is called *symmetric*, if it has the property
 
 $$
 \innerp{Tx}{y} = \innerp{x}{Ty} \quad \forall x,y \in D(T).
-- 
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