"abkmnpvx" LETTERS.charAt( randRange( 0, LETTERS.length - 1 ) )
randRange( 0, 3 ) randRangeNonZero( -30, 30 ) randRangeNonZero( -30, 30 ) Y > 0 ? "-" : "+" [expr( ["+", X, Y] ), expr( ["+", Y, X] ), Z, Z][INDEX] [Z, Z, expr( ["+", X, Y] ), expr( ["+", Y, X] )][INDEX]

Solve for X.

\large{LEFT = RIGHT}

Z - Y

Add Y * -1 toSubtract Y from both sides.

\large{X = RIGHT\color{blue}{Y_SIGNabs( Y )}}

\large{LEFT\color{blue}{Y_SIGNabs( Y )} = X}

Simplify.

\large{X = Z - Y}

randRange( 0, 1 ) randRange( 2, 20 ) * randRangeNonZero( -1, 1 ) randRange( 2, 20 - abs( Y ) + 5 ) * randRangeNonZero( -1, 1 ) * Y Y * Z > 0 ? "" : "-" [expr( ["*", Y, X] ), Z][INDEX] [Z, expr( ["*", Y, X] )][INDEX]

Solve for X.

\large{LEFT = RIGHT}

Z / Y

Divide both sides by Y.

\large{X = \dfrac{Z}{\color{blue}{Y}}}

\large{X = \color{blue}{Y_SIGN}Y_SIGN\dfrac{abs( Z )}{\color{blue}{abs( Y )}}}

Divide both sides by Y.

\large{\dfrac{Z}{\color{blue}{Y}} = X}

\large{\color{blue}{Y_SIGN}Y_SIGN\dfrac{abs( Z )}{\color{blue}{abs( Y )}} = X}

Simplify.

\large{X = Z / Y}

randRange( 0, 1 ) randRange( 2, 20 ) randRange( 2, 20 - abs( Y ) + 5 ) * randRangeNonZero( -1, 1 )

Solve for X.

\large{\dfrac{X}{Y} = Z}

Z * Y

Multiply both sides by Y.

\large{X = Z \cdot {\color{blue}{Y}}}

Simplify.

\large{X = Z * Y}

\large{Z = \dfrac{X}{Y}}

Multiply both sides by Y.

\large{Z \cdot {\color{blue}{Y}} = X}

Simplify.

\large{X = Z * Y}