First, use this rule of exponents to combine the #x# terms in the numerator and #y# terms in the denominator:
#x^color(red)(a) xx x^color(blue)(b) = x^(color(red)(a) + color(blue)(b))#
#((x^color(red)(4)y^3z^2x^color(blue)(-5))/(x^5y^color(red)(2)z^2y^color(blue)(4)))^-3 =>#
#((x^color(red)(4)x^color(blue)(-5)y^3z^2)/(x^5y^color(red)(2)y^color(blue)(4)z^2))^-3 =>#
#((x^(color(red)(4)+color(blue)(-5))y^3z^2)/(x^5y^(color(red)(2)+color(blue)(4))z^2))^-3 =>#
#((x^(color(red)(4)-color(blue)(5))y^3z^2)/(x^5y^6z^2))^-3 =>#
#((x^-1y^3z^2)/(x^5y^6z^2))^-3#
Next, use this rule of exponents to combine the common terms:
#x^color(red)(a)/x^color(blue)(b) = x^(color(red)(a)-color(blue)(b))#
#((x^color(red)(-1)y^color(red)(3)z^color(red)(2))/(x^color(blue)(5)y^color(blue)(6)z^color(blue)(2)))^-3 =>#
#(x^(color(red)(-1)-color(blue)(5))y^(color(red)(3)-color(blue)(6))z^(color(red)(2)-color(blue)(2)))^-3 =>#
#(x^-6y^-3z^0)^-3#
Now, use this rule of exponents to complete the simplification:
#(x^color(red)(a))^color(blue)(b) = x^(color(red)(a) xx color(blue)(b))#
#x^(color(red)(-6) xx color(blue)(-3))y^(color(red)(-3) xx color(blue)(-3))z^(color(red)(0) xx color(blue)(-3)) =>#
#x^18y^-9z^0#
Therefore:
#x^r = x^18 => r = 18#
#y^s = y^-9 => s = -9#
#z^t = z^0 => t = 0#
