Prove that `x^(3p) + x^(3q+1) + x^(3r+2)` is exactly divisible by `x^2+x+1`, if p,q,r is integer.

Prove that x^(3p)+x^(3q+1)+x^(3r+2) is exactly divisible by x^(2)+x+1, if p,r,r is integer.

Show that the polynomial x^(4p)+x^(4q+1)+x^(4r+2)+x^(4s+3) is divisible by x^(3)+x^(2)+x+1, where p,q,r,s in n

If the polynomial 8x^(4)+14x^(3)-2x^(2)+px+q is exactly divisible by 4x^(2)+3x-2 , then the values of p and q respectively are

x^(p-q).x^(q-r).x^(r-p)

Find the values of p and q so that x^(4)+px^(3)+2x^(2)-3x+q is divisible by (x^(2)-1)

If alpha ia ROOT OF x^2+x+1 = 0 then show that alpha is also a root of x^(3p)+x^(3q+1)+x^(3r+2) = 0. where p,q,r are integers.

Prove that px^(q-r)+qx^(r-p)+rx^(p-q)>p+q+r, where p,q,r are distinct and x!=1

If the expression (px^(3)+x^(2)-2x-q) is divisible by (x-1)and(x+1) , what are the values of p and q respectively?

If px^(3)+qx^(2)+rx+s is exactly divisible by x^(2)-1 , then which of the following is /are necessarily true ? (A) p = r )B) q = s (C ) p =- r (D) q =- s