diferential and integral calculus reviewer solution
Mon, 01/03/2011 - 17:23
- 2111 reads
Sat, 01/08/2011 - 21:20
#1
Re: diferential and integral calculus reviewer solution
i'm having a hard time in integration and i don't have any fair books enough to sustain my incompetence aside from our manual so i badly need something to engross with.
Thu, 01/13/2011 - 20:25
#3
Re: diferential and integral calculus reviewer solution
Guest wrote:
solution to integral calculus love and reinville
Thu, 01/13/2011 - 20:32
#4
Re: diferential and integral calculus reviewer solution
Guest wrote:
solution to integral calculus love and reinville
Thu, 01/20/2011 - 19:36
#5
Re: diferential and integral calculus reviewer solution
me too i'd like to have a solutions of love and reinville.,it is possible to have it on my page?hehe
Mon, 03/28/2011 - 07:53
#6
Re: diferential and integral calculus reviewer solution
anyone who can solve this please? I am just a little confused:
integrate dx/(1-sin(x)) from 0 to pi/4
need your reply. Please.
Tue, 04/19/2011 - 09:26
#7
Re: diferential and integral calculus reviewer solution
Try this:
dx/(1-sin(x)) = [ dx/(1-sin(x)) ][ (1+sin(x)) / (1+sin(x)) ]
= (1+sin(x)) dx / (1 - sin^2 (x))
= (1+sin(x)) dx / cos^2 (x)
= sec^2 (x) dx + sec(x) tan(x) dx
which is now integrable.
Tue, 11/01/2011 - 01:13
#8
Re: diferential and integral calculus reviewer solution
Guest wrote:
i'm having a hard time in integration and i don't have any fair books enough to sustain my incompetence aside from our manual so i badly need something to engross with.
Tue, 01/10/2012 - 21:47
#10
Re: diferential and integral calculus reviewer solution
anyone who can solve this..find the slope of the curve
y= 3x^2-2x at (2,80
