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{SECT 0 {PARA 0 "" 0 "" {TEXT -1 0 "" }{TEXT 256 21 "Maple as a calcul
ator" }}{PARA 0 "" 0 "" {TEXT -1 35 "\nCopyright 2000-2004, SUNY Buffa
lo." }}{PARA 0 "" 0 "" {TEXT -1 0 "" }}{PARA 0 "" 0 "" {TEXT 258 111 "
If you are unfamiliar with Maple, work through this introduction and m
ake sure you understand everything in it." }}{PARA 0 "" 0 "" {TEXT -1 
0 "" }}{PARA 0 "" 0 "" {TEXT -1 71 "Addition, subtraction, multiplicat
ion and division operators (+,-,*,/):" }}{EXCHG {PARA 0 "> " 0 "" 
{MPLTEXT 1 0 15 "2*(5-8)/(1+16);" }}{PARA 11 "" 1 "" {XPPMATH 20 "6##!
\"'\"#<" }}}{PARA 0 "" 0 "" {TEXT -1 171 "Note that all commands end w
ith a semi-colon (;) (or colon: see below).\nHit the Enter key to exec
ute your command. The cursor does NOT have to be at the end of the lin
e. \n" }}{PARA 0 "" 0 "" {TEXT -1 57 "Obtaining approximate decimal ex
pansions of numbers with " }{TEXT 257 5 "evalf" }}{EXCHG {PARA 0 "> " 
0 "" {MPLTEXT 1 0 13 "evalf(-6/17);" }}{PARA 11 "" 1 "" {XPPMATH 20 "6
#$!+l<THN!#5" }}}{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 14 "Pi;\nevalf(
Pi);" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#%#PiG" }}{PARA 11 "" 1 "" 
{XPPMATH 20 "6#$\"+aEfTJ!\"*" }}}{PARA 0 "" 0 "" {TEXT -1 56 "Note: to
 continue an execution group on a new line, use " }{TEXT 259 11 "Shift
-Enter" }{TEXT -1 17 " instead of just " }{TEXT 260 5 "Enter" }{TEXT 
-1 1 "." }}{PARA 0 "" 0 "" {TEXT -1 0 "" }}{PARA 0 "" 0 "" {TEXT -1 
29 "Powers, trig functions, etc.:" }}{EXCHG {PARA 0 "> " 0 "" 
{MPLTEXT 1 0 4 "7^2;" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#\"#\\" }}}
{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 9 "sqrt(36);" }}{PARA 11 "" 1 "
" {XPPMATH 20 "6#\"\"'" }}}{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 16 "e
valf( exp(1) );" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#$\"+G=G=F!\"*" }}}
{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 9 "cos(Pi);\n" }}{PARA 11 "" 1 "
" {XPPMATH 20 "6#!\"\"" }}}{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 10 "a
rctan(1);" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#,$%#PiG#\"\"\"\"\"%" }}}
{PARA 0 "" 0 "" {TEXT -1 35 "Getting information about a command" }}
{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 7 "?arctan" }}}{PARA 0 "" 0 "" 
{TEXT -1 88 "A help window will open. Information on arctan and relate
d functions will be accessible." }}{PARA 0 "" 0 "" {TEXT -1 75 "\nChan
ging the precision of Maple's approximate \"floating point\" arithmeti
c:" }}{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 22 "Digits:=50;\nevalf(Pi)
;" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#>%'DigitsG\"#]" }}{PARA 11 "" 1 "
" {XPPMATH 20 "6#$\"S^P*Rpr>%)G]zKQVEYQKz*e`EfTJ!#\\" }}}{PARA 0 "" 0 
"" {TEXT -1 41 "Assignment (giving names to expressions):" }}{EXCHG 
{PARA 0 "> " 0 "" {MPLTEXT 1 0 38 "a:=-16/7;\nb:=Pi+a;\nd:=b^2+c;\neva
lf(d);" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#>%\"aG#!#;\"\"(" }}{PARA 11 
"" 1 "" {XPPMATH 20 "6#>%\"bG,&%#PiG\"\"\"#\"#;\"\"(!\"\"" }}{PARA 11 
"" 1 "" {XPPMATH 20 "6#>%\"dG,$*$),&%#PiG\"\"\"#\"#;\"\"(!\"\"\"\"#F*F
/" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#$\"S;.7'H38m\"Rk<I#z!)))z^[%>hb0l
9!#\\" }}}{PARA 0 "" 0 "" {TEXT -1 55 "Restarting the Maple kernel (to
 clear all assignments):" }}{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 21 "
a:=77;\na;\nrestart:\na;" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#>%\"aG\"#x
" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#\"#x" }}{PARA 11 "" 1 "" {XPPMATH 
20 "6#%\"aG" }}}{PARA 0 "" 0 "" {TEXT -1 75 "Suppressing output of ass
ignments with the colon (:) expression terminator:" }}{EXCHG {PARA 0 "
> " 0 "" {MPLTEXT 1 0 6 "a:=33;" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#>%
\"aG\"#L" }}}{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 6 "a:=34:" }}}
{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 2 "a;" }}{PARA 11 "" 1 "" 
{XPPMATH 20 "6#\"#M" }}}{PARA 0 "" 0 "" {TEXT -1 77 "You can clear ass
ignments more selectively than with restart, using unassign:" }}
{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 27 "a:=99:\na;\nunassign('a');\n
a;" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#\"#**" }}{PARA 11 "" 1 "" 
{XPPMATH 20 "6#%\"aG" }}}{PARA 0 "" 0 "" {TEXT -1 102 "Note that the f
orward quote has to be used in the above.\n\nAn example of a real calc
ulation with Maple:" }}{EXCHG {PARA 0 "> " 0 "" {MPLTEXT 1 0 178 "w:=3
00.0;\nT[2]:=w/2;\nmagT:=500.0;\nT[1]:=sqrt(magT^2-T[2]^2);\ntheta_rad
ians:=arctan(T[2]/T[1]);\ndegrees_per_radian:=evalf(180/Pi);\ntheta_de
grees:=theta_radians*degrees_per_radian;" }}{PARA 11 "" 1 "" {XPPMATH 
20 "6#>%\"wG$\"%+I!\"\"" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#>&%\"TG6#\"
\"#$\"+++++:!\"(" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#>%%magTG$\"%+]!\"
\"" }}{PARA 11 "" 1 "" {XPPMATH 20 "6#>&%\"TG6#\"\"\"$\"+2gppZ!\"(" }}
{PARA 11 "" 1 "" {XPPMATH 20 "6#>%.theta_radiansG$\"+Sl#p/$!#5" }}
{PARA 11 "" 1 "" {XPPMATH 20 "6#>%3degrees_per_radianG$\"+]zdHd!\")" }
}{PARA 11 "" 1 "" {XPPMATH 20 "6#>%.theta_degreesG$\"+7.wX<!\")" }}}
{PARA 0 "" 0 "" {TEXT -1 120 "An advantage of the Maple worksheet over
 a  calculator is that you have an easily editable record of what you \+
have done." }}{PARA 0 "" 0 "" {TEXT -1 0 "" }}{PARA 0 "" 0 "" {TEXT 
-1 10 "Be sure to" }{TEXT 261 5 " Save" }{TEXT -1 100 " your worksheet
 frequently: Maple crashes more often than we'd like, and you can lose
 all your work." }}{PARA 0 "" 0 "" {TEXT -1 0 "" }}{PARA 0 "" 0 "" 
{TEXT -1 105 "Whenever  you turn in hard copy of a Maple worksheet, pl
ease use View->Zoom Factor 75% to conserve paper." }}{EXCHG {PARA 0 ">
 " 0 "" {MPLTEXT 1 0 0 "" }}}}{MARK "1 0" 35 }{VIEWOPTS 1 1 0 1 1 
1803 1 1 1 1 }{PAGENUMBERS 0 1 2 33 1 1 }