= '0')&&(CHAR <= '9')) ) {
// NUMERICAL CONSTANT
// POINTER TO POSITION IN STR
STR = CHAR ;
TK = 99 ;
for (IC=1;IC<=15;IC++) {
// GET NEXT CHARACTER
INXT = IP+1 ;
CHAR = INSTR.substr(INXT,1) ;
if ( ! isNaN(CHAR) ) {
// PACK IN NEXT CHARACTER
IP++ ;
STR += CHAR ;
}
else {
// CHECK FOR EXPONENTIAL NOTATION
CHAR2 = STR.substr(STR.length1,1).toUpperCase() ;
if ( ( CHAR.toUpperCase() == 'E' ) 
( ( CHAR2 =='E' ) && ( CHAR == '') ) 
( CHAR == '.' ) ) {
// PACK IN NEXT CHARACTER
IP++ ;
STR += CHAR ;
continue ;
// end if nonnumeric char in numerical constant
}
// NUMBER COMPLETE
else { break } ;
} ; // end if else ! isNaN
} ; // end for IC
// GET NUMERIC VALUE {NOTE ALL NUMBERS TREATED AS REAL}
IXVAR++ ;
XVAR[IXVAR] = parseFloat(STR) ;
return TK ;
} ; // end if constant
// ERROR***
alert(' EXPECTING VARIABLE OR CONSTANT') ;
IERR=1 ;
return ;
} ; // end if VARIABLE, CONSTANT, or FUNCTION
// GET OPERATION @@@@@@@@
if ( (OLDTOK>98)(OLDTOK==0) ) {
// TOKEN VALUE FOR OPERATION
// ^^^^^EXPONENTIATION
if ( CHAR == '^' ) { TK=6 ; return TK }
// LOOK AHEAD TO NEXT CHARACTER
INXT=IP+1 ;
if ( (CHAR == '*')&&(INSTR.substr(INXT,1)=='*') ) {
TK=6 ;
IP=IP+1 ;
return TK ;
} ; // end if **
// /////DIVISION
if ( CHAR == '/' ) {
TK=4 ;
return TK ;
} ; // end if /
// *****MULTIPLICATION
if ( CHAR == '*' ) {
TK=3 ;
return TK ;
} ; // end if *
// SUBTRACTION
if ( CHAR == '' ) {
TK=2 ;
return TK ;
} ; // end if 
// +++++ADDITION
if ( CHAR == '+' ) {
TK=1 ;
return TK ;
} ; // end if +
// )))))END
if ( CHAR == ')' ) {
TK=0 ;
return TK ;
} ; // end if )
// ERROR***
alert(' EXPECTING OPERATOR') ;
IERR=1 ;
return ;
} ; // end if GET OPERATION
// CHECK FOR A '(' BEGINNING A FUNCTION ARGUMENT @@@@@@@@
if ( (OLDTOK>6)&&(OLDTOK<16) ) {
if ( CHAR == '(' ) { TK=16 ; return TK }
// ERROR***
alert(' EXPECTING "("') ;
IERR=1 ;
return ;
} ; // end if BEGINNING A FUNCTION ARGUMENT
// ERROR**** @@@@@@@@
alert(' PARSER ERROR') ;
IERR=1 ;
return ;
} ; // end function GETTOK
function CALPAR(TK,OP,IOP) {
// CALCULATE THE RESULT OF AN OPERATION.
// THE OPERATION IS CLEARED FROM THE STACK AND
// THE RESULT IS PLACED BACK ON THE STACK.
// IF IERR=1 ON return AN ERROR HAS OCCURED.
//
// SUBROUTINE FOR PARSER
//
// GLOBALS OR FUNCTION PARAMETERS
// STACK[1:6]=STACK FOR CONSTANTS
// ISTCK=STACK POINTER
// OP[0:7]=STACK FOR OPERATORS
// IOP=OPERATOR STACK POINTER
// TOK=CURRENT TOKEN VALUE
// IT=POINTER TO TOKEN ARRAY, CURRENT TOKEN
// (X) HAS OCCURED
if ( ( OP[IOP] == 0 )&&( TK == 0 ) ) return ;
// CHECK FOR FUNCTION
if ( OP[IOP] <= 6 ) {
// UNARY MINUS
if ( OP[IOP] == 5 ) {
STACK[ISTCK] = STACK[ISTCK] ;
return } ; // end if UNARY MINUS
// CHECK FOR SYNTAX ERROR****
if ( ISTCK == 0 ) {
alert(' SYNTAX ERROR') ;
IP = IPT[IT] ;
IERR=1 ;
return ;
} ; // end if ISTCK==0 ERROR
// POP CONSTANT OR VARIABLE VALUES OFF STACK
X=STACK[ISTCK1] ;
Y=STACK[ISTCK] ;
ISTCK=ISTCK1 ;
// +*/^
switch( OP[IOP] ) {
// EVALUATE
case 1: Z=X+Y ;
break ;
case 2: Z=XY ;
break ;
case 3: Z=X*Y ;
break ;
case 4: Z=X/Y ;
break ;
case 6: Z=Math.pow(X,Y) ;
break ;
default:
// ERROR****
alert(' OPERATOR EVALUATION ERROR') ;
IP = IPT[IT] ;
IERR=1 ;
return ;
} ; // end switch
// PUT RESULT BACK ON STACK
STACK[ISTCK] = Z ;
return ;
}
else {
// FUNCTION EVALUATION
// 'ATN','COS','EXP','LNE','LOG','SIN','SQR','TAN'
X=STACK[ISTCK] ;
IC=OP[IOP]6 ;
switch ( IC ) {
// EVALUATE
case 1: Z=Math.atan(X) ;
break ;
case 2: Z=Math.cos(X) ;
break ;
case 3: Z=Math.exp(X) ;
break ;
case 4: if ( X > 0.0 ) { Z=Math.log(X) }
else {
alert(' LOG OF ZERO OR NEGATIVE ARGUMENT') ;
IP = IPT[IT] ;
IERR=1 ;
return }
break ;
case 5: if ( X > 0.0 ) { Z=Math.log(X)/Math.log(10.0) }
else {
alert(' LOG OF ZERO OR NEGATIVE ARGUMENT') ;
IP = IPT[IT] ;
IERR=1 ;
return }
break ;
case 6: Z=Math.sin(X) ;
break ;
case 7: if ( X >= 0.0 ) { Z=Math.sqrt(X) }
else {
alert(' SQRT OF NEGATIVE ARGUMENT') ;
IP = IPT[IT] ;
IERR=1 ;
return }
break ;
case 8: Z=Math.tan(X) ;
break ;
default:
// ERROR****
alert(' FUNCTION EVALUATION ERROR') ;
IP = IPT[IT] ;
IERR=1 ;
return ;
} ; // end switch
// PUT RESULT BACK ON STACK
STACK[ISTCK] = Z ;
return ;
} ; // end if else FUNCTION
} ; // end function CALPAR
// Significant figure functions
function ord(x) {
return Math.floor(Math.log(Math.abs(x+1e35))/2.303)
}
// Truncate to n sign. figures
function trunc(x,n) {
c= Math.floor(x*Math.pow(10,ord(x)+n1)+.5)/Math.pow(10,ord(x)+n1) ;
c = ( Math.abs(c)<1e20) ? 0 : c ;
return c
}
// round x to one extra sign. figure based on its standard deviation,s.
function round(x,s) {
c= Math.floor(x*Math.pow(10,ord(s)+1)+.5)/Math.pow(10,ord(s)+1) ;
return c
} ; // end function round
function fmt(xin,format) {
// typical call example fmt(x,'#####.####')
var spc = ' ' ;
var idecfmt = format.indexOf('.',0) ;
var iendfmt = format.lengthidecfmt1 ;
var ipstdecpt = format.lengthidecfmt1 ;
// set precision if built in function used
var iprec = (idecfmt<0) ? format.length3 : format.length4
var xfx = xin ;
if ( Math.abs(ord(xfx))>9 ) iprec ;
if ( xfx>0 ) { xfx += 0.5*Math.pow(10,ipstdecpt) }
else { xfx = 0.5*Math.pow(10,ipstdecpt) }
xstr = ''+xfx ; // casting
idec = xstr.indexOf('.',0) ;
if ( idec < 0 ) {
xstr = xstr + '.' ;
idec = xstr.length1 ;
}
ilgth = xstr.length ;
iend = ilgthidec1 ;
trun = xstr.lengthiend+iendfmt ;
zeros = idecfmtiend1 ;
xstr = (iend>iendfmt) ? xstr.substring(0,trun) : xstr+spc.substring(0,zeros) ;
// replace trailing zeros
ilgth = xstr.length ;
for ( i=ilgth1 ; i>idec+1 ; i) {
if ( xstr.substring(i,i+1) != "0" ) break ;
xstr = xstr.substring(0,i)+" "+xstr.substring(i+1,ilgth)
} ; // end for i replace
//
str = spc.substring(0,idecfmtidec)+xstr ;
if ( parseFloat(str)==0 ) { str = ''+xin.toPrecision(iprec) }
return str ;
} ; // end fmt
//>
Range Based Uncertainty Calculator
Evaluate an Equation
Help
Type in your equation at the "Equation:" prompt.
Input follows "BASIC" type rules:

Exponentiation is indicated by ^ or **.

LOG() is base 10, LNe() is base e.

Allowed functions are ATN, COS, EXP, LNe, LOG, SIN, SQR, TAN.

Variables are one or two characters, e.g. I, X, df, X7.

Nested parentheses are useful, e.g. ((X+Y)*Z).

No implicit multiplication, e.g. ((X+Y)Z) is not allowed.

Variables are not case sensitive: x=X.

Scientific notation: 1.23x10^{3} is written as 1.23E3.

Enter your equation without an "=" sign.
Example: 
To evaluate K_{2}, knowing K_{1}, H, R, T_{2},and T_{1}
in the equation:
ln(K_{2}/K_{1}) =  H/R( 1/T_{2}  1/T_{1})
Solve for K_{2}.
You would then enter Equation: K1*EXP(H/R*(1/T21/T1))
Colby College Chemistry, T. W. Shattuck