From 518f1d1ecccc5bef952d1b7657604da95c9ec802 Mon Sep 17 00:00:00 2001
From: Maciej Topyla <m.m.topyla@student.tudelft.nl>
Date: Sun, 4 Sep 2022 19:30:05 +0000
Subject: [PATCH] spell-checked
---
src/4_vector_spaces_QM.md | 6 +++---
1 file changed, 3 insertions(+), 3 deletions(-)
diff --git a/src/4_vector_spaces_QM.md b/src/4_vector_spaces_QM.md
index 96bd4aa..2bdd85e 100644
--- a/src/4_vector_spaces_QM.md
+++ b/src/4_vector_spaces_QM.md
@@ -28,7 +28,7 @@ The contents of this lecture are summarised in the following **videos**:
- [3. Finding expansion coefficients for Dirac notation](https://www.dropbox.com/s/k9plspkonnk3nc0/linear_algebra-07.mov?dl=0)
-**Total lenght of the videos: ~14 minutes**
+**Total length of the videos: ~14 minutes**
---
@@ -45,7 +45,7 @@ This vector space is known as the *state space* of the system.
!!! info "Ket"
A physical state of a quantum system is represented by a symbol $$|~~\rangle$$ known as a **ket**.
This notation is known as the *Dirac notation*, and it is very prominent in the description of quantum mechanics.
- Note that a *ket* is also refered to as a state vector, *ket* vector, or just a state.
+ Note that a *ket* is also referred to as a state vector, *ket* vector, or just a state.
### Hilbert space
@@ -72,7 +72,7 @@ The set of all possible state vectors describing a given physical system forms a
$$\sum_{i=1}^n c_i |{\psi_i}\rangle=0\;\text{then}\; c_i=0\;\text{for all}\; i$$
!!! info "Dimensionality"
- The minimum number of vectors needed to form a complete set of basis states is known as the *dimensionality* of the state space. In quantum mechanis you will encounter systems whose Hilbert spaces have very different dimensionality, from the spin-1/2 particle (a $n=2$ vector space) to the free particle (whose state vectors live in an infinite vector space).
+ The minimum number of vectors needed to form a complete set of basis states is known as the *dimensionality* of the state space. In quantum mechanics you will encounter systems whose Hilbert spaces have very different dimensionality, from the spin-1/2 particle (a $n=2$ vector space) to the free particle (whose state vectors live in an infinite vector space).
### Bra vectors
--
GitLab