From 9ed484b734807fe0eb9de11b0cd2de054cfc6483 Mon Sep 17 00:00:00 2001
From: Divay Prakash <divayprakash3@gmail.com>
Date: Wed, 15 Aug 2018 18:26:57 +0530
Subject: Fix content error

---
 asymptotic-notation.html.markdown | 4 ++--
 1 file changed, 2 insertions(+), 2 deletions(-)

(limited to 'asymptotic-notation.html.markdown')

diff --git a/asymptotic-notation.html.markdown b/asymptotic-notation.html.markdown
index 6a6df968..a1dfe9e1 100644
--- a/asymptotic-notation.html.markdown
+++ b/asymptotic-notation.html.markdown
@@ -155,7 +155,7 @@ Small-o, commonly written as **o**, is an Asymptotic Notation to denote the
 upper bound (that is not asymptotically tight) on the growth rate of runtime 
 of an algorithm.
 
-`f(n)` is o(g(n)), if for some real constants c (c > 0) and n<sub>0</sub> (n<sub>0</sub> > 0), `f(n)` is < `c g(n)` 
+`f(n)` is o(g(n)), if for all real constants c (c > 0) and n<sub>0</sub> (n<sub>0</sub> > 0), `f(n)` is < `c g(n)` 
 for every input size n (n > n<sub>0</sub>).
 
 The definitions of O-notation and o-notation are similar. The main difference 
@@ -168,7 +168,7 @@ Small-omega, commonly written as **ω**, is an Asymptotic Notation to denote
 the lower bound (that is not asymptotically tight) on the growth rate of 
 runtime of an algorithm.
 
-`f(n)` is ω(g(n)), if for some real constants c (c > 0) and n<sub>0</sub> (n<sub>0</sub> > 0), `f(n)` is > `c g(n)` 
+`f(n)` is ω(g(n)), if for all real constants c (c > 0) and n<sub>0</sub> (n<sub>0</sub> > 0), `f(n)` is > `c g(n)` 
 for every input size n (n > n<sub>0</sub>).
 
 The definitions of Ω-notation and ω-notation are similar. The main difference 
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