#                     MAPLE fuer ANALYSIS 
#                RWTH -Aachen, Wintersemester 1997/98
#                         E. Goerlich
#
# Maple -Input von Kapitel 3:

> 1/23;
> 1/23/45;1/(23*45);1/23*45;
> p^(1/2*k*(k+1));
> 1/2*k*(k+1);
> a^b/c;
> 2/23^2;2/(23^2);
> Int(cos(x)+sin(x)+tan(x),x=0..Pi/4)=int(cos(x)+sin(x)+tan(x),x=0..Pi/4
> );
> .007;
> 23450.;
> Int(cos(x)+sin(x)+tan(x),x=0..0.25*Pi)=int(cos(x)+sin(x)+tan(x),x=0..0\
> .25*Pi);
> cos(0.5*Pi);
> .0000;
> Int(cos(x)+sin(x)+tan(x),x=.00000..Pi/4)=int(cos(x)+sin(x)+tan(x),x=.0\
> 0000..Pi/4);
> exp(ln(1.0000));
> 12345/67891011;
> convert(",float);
> evalf(12345/67891011);
> Int(cos(x)+sin(x)+tan(x),x=0..Pi/4)=evalf(int(cos(x)+sin(x)+tan(x),x=0
> ..Pi/4));
> convert(.0001818355599,rational);
> 12345/67891011-";
> Float(7,9);
> kernelopts(wordsize);
> readlib(Maple_floats):
> Maple_floats(MAX_FLOAT);
> kernelopts(maxdigits);
> 1E-6;
> exp(1);
> 2^2^2;
> `2^(2^2)`=2^(2^2); `(2^2)^2`=(2^2)^2;
> `2^(2^(2^2))`=2^(2^(2^2));
> `((2^2)^2)^2`=((2^2)^2)^2;
> `2^(2^(2^(2^2)))`=2^(2^(2^(2^2))):
> `(((2^2)^2)^2)^2`=(((2^2)^2)^2)^2;
> length(2^(2^(2^(2^2))));
> evalf(2^(2^(2^(2^2))));
> `2^(2^(2^(2^(2^2))))`=2^(2^(2^(2^(2^2))));
> `((((2^2)^2)^2)^2)^2`=((((2^2)^2)^2)^2)^2;
> 
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