01-26-2009
I was once a nethack kind of guy. I recently bought a Wii and am into Madden Football and Wii Sport.
3 More Discussions You Might Find Interesting
1. Ubuntu
I have Ubunut installed on my desktop
AMD 6 Core 3.2 (will be getting the bulldozer AMD 8 Core when it releases)
16 GB of DDR3 1333 RAM
SSD
some HDD's
Nvidia 560 ti 1GB
My question is, how can I or can I even get a Win 7 VM to play games as well in a main install. Give it 10 GBs of RAM... (0 Replies)
Discussion started by: ochieman2000
0 Replies
2. UNIX for Advanced & Expert Users
Hello Linux experts,
I'm working on live video streaming project, and my job is to create video streaming server using
Ubuntu 13.04
Here is what I've done so far:
1. Installed crtmpserver from Ubuntu's repositories.
2. Installed ffmpeg
To test the server i use webcam as source of video,... (0 Replies)
Discussion started by: +Yan
0 Replies
3. Windows & DOS: Issues & Discussions
Hi,
There are many MP4 files in a folder say 50 files . All these files are video clipping files.Instead of playing the video one by one , is it possible to play all video clipping files into single shot ?
Say for example when i play one video file it gets over after sometime and to view... (5 Replies)
Discussion started by: Maddy123
5 Replies
J0(3) BSD Library Functions Manual J0(3)
NAME
j0, j1, jn, y0, y1, yn -- bessel functions of first and second kind
SYNOPSIS
#include <math.h>
double
j0(double x);
double
j1(double x);
double
jn(int n, double x);
double
y0(double x);
double
y1(double x);
double
yn(int n, double x);
DESCRIPTION
The functions j0(x) and j1(x) compute the Bessel function of the first kind of the order 0 and the order 1, respectively; the function jn(n,
x) computes the Bessel function of the first kind of the integer order n.
The functions y0(x) and y1(x) compute the linearly independent Bessel function of the second kind of the order 0 and the order 1, respec-
tively, for the positive integer value x (expressed as a double); the function yn(n, x) computes the Bessel function of the second kind for
the integer order n for the positive integer value x (expressed as a double).
SPECIAL VALUES
j0(0) returns 1.
j0(+-infinity) returns 0.
j0(NaN) returns a NaN.
j1(0) returns 0.
j1(+infinity) returns 0.
j1(NaN) returns a NaN.
y0(0) , y1(0) , and yn(n, 0) all return -infinity and raise the "division-by-zero" floating-point flag.
4th Berkeley Distribution December 11, 2006 4th Berkeley Distribution