From b846e48d03284a54a113429c8401ecbe264eefdd Mon Sep 17 00:00:00 2001
From: tactonbishop <tactonbishop@gmail.com>
Date: Mon, 22 Aug 2022 19:00:04 +0100
Subject: [PATCH] Last Sync: 2022-08-22 19:00:04

---
 .../{Coulombs_Law.md => Coulombs_Laws.md}                       | 0
 Electronics/Physics_of_electricity/Current.md                   | 2 ++
 2 files changed, 2 insertions(+)
 rename Electronics/Physics_of_electricity/{Coulombs_Law.md => Coulombs_Laws.md} (100%)

diff --git a/Electronics/Physics_of_electricity/Coulombs_Law.md b/Electronics/Physics_of_electricity/Coulombs_Laws.md
similarity index 100%
rename from Electronics/Physics_of_electricity/Coulombs_Law.md
rename to Electronics/Physics_of_electricity/Coulombs_Laws.md
diff --git a/Electronics/Physics_of_electricity/Current.md b/Electronics/Physics_of_electricity/Current.md
index 2980aad..fbf1b7a 100644
--- a/Electronics/Physics_of_electricity/Current.md
+++ b/Electronics/Physics_of_electricity/Current.md
@@ -23,6 +23,8 @@ _The diagram below illustrates the flow of current where the circles are electro
 
 ![](/img/charge-cylinder.svg)
 
+> Electrons travel very slowly through a conductor. This is in contrast to their intrinsic motion which of course equal to the speed of light (186, 000 miles per second).
+
 ## Formal expression
 
 We measure **charge** in Coulombs ($C$). A Coulomb is an aggregate of the charge of thousands of electrons because their individual charge is so small.