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<PRE>
 
<PRE>
 
with(plots):
 
with(plots):
implicitplot( x^2/9 + y^2/4, x=-4..4, y=-3..3 );
+
implicitplot( x^2/9 + y^2/4 = 1 , x=-4..4, y=-3..3 );
  
 
plot( [3*cos(t),2*sin(t), t=0..2*Pi] );
 
plot( [3*cos(t),2*sin(t), t=0..2*Pi] );
  
 
p1 := plot( [3*cosh(t),2*sinh(t), t=-2..2] , [-3*cosh(t),2*sinh(t), t=-2..2], color=red ):
 
p1 := plot( [3*cosh(t),2*sinh(t), t=-2..2] , [-3*cosh(t),2*sinh(t), t=-2..2], color=red ):
p2 := plot( { (2/3)*x, -(2/3)*x }, x=-11..11 ):
+
p2 := plot( { (2/3)*x, -(2/3)*x } , x=-11..11 ):
 
display( {p1,p2} );
 
display( {p1,p2} );
  
f := x -> (8/Pi) * sum( ((-1)^(n+1)/(2*n-1)^2)*sin((2n-1)*x), n=1..20 );
+
f := x -> (8/Pi) * sum( ((-1)^(n+1)/(2*n-1)^2)*sin((2*n-1)*x), n=1..20 );
  
 
plot( f(x), x=0..Pi );
 
plot( f(x), x=0..Pi );

Revision as of 08:10, 4 December 2008

Here's a place where we can list our favorite MAPLE commands.

with(plots):
implicitplot( x^2/9 + y^2/4 = 1 , x=-4..4, y=-3..3 );

plot( [3*cos(t),2*sin(t), t=0..2*Pi] );

p1 := plot( [3*cosh(t),2*sinh(t), t=-2..2] , [-3*cosh(t),2*sinh(t), t=-2..2], color=red ):
p2 := plot( { (2/3)*x, -(2/3)*x } , x=-11..11 ):
display( {p1,p2} );

f := x -> (8/Pi) * sum( ((-1)^(n+1)/(2*n-1)^2)*sin((2*n-1)*x), n=1..20 );

plot( f(x), x=0..Pi );

See also Bell's MAPLE Tutorial.

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