How do you simplify and divide #(z^5-3z^2-20)div(z-2)#? Precalculus Real Zeros of Polynomials Long Division of Polynomials 1 Answer Harish Chandra Rajpoot Jul 3, 2018 #z^4+2z^3+4z^2+5z+10# Explanation: Since, #z=2# satisfies the polynomial #z^5-3z^2-20# hence #z-2# is a factor #z^5-3z^2-20# i.e. #z^5-3z^2-20# is completely divisible by #z-2#. It can be factorized as follows #z^5-3z^2-20## #=z^4(z-2)+2z^3(z-2)+4z^2(z-2)+5z(z-2)+10(z-2)# #=(z-2)(z^4+2z^3+4z^2+5z+10)# #\frac{z^5-3z^2-20}{z-2}=z^4+2z^3+4z^2+5z+10# Answer link Related questions What is long division of polynomials? How do I find a quotient using long division of polynomials? What are some examples of long division with polynomials? How do I divide polynomials by using long division? How do I use long division to simplify #(2x^3+4x^2-5)/(x+3)#? How do I use long division to simplify #(x^3-4x^2+2x+5)/(x-2)#? How do I use long division to simplify #(2x^3-4x+7x^2+7)/(x^2+2x-1)#? How do I use long division to simplify #(4x^3-2x^2-3)/(2x^2-1)#? How do I use long division to simplify #(3x^3+4x+11)/(x^2-3x+2)#? How do I use long division to simplify #(12x^3-11x^2+9x+18)/(4x+3)#? See all questions in Long Division of Polynomials Impact of this question 1610 views around the world You can reuse this answer Creative Commons License