Compute the 3rd roots of z=1 Compute the square roots of z=-32+32sqrt(3)i

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Find two distinct square roots of i.

Find two distinct square roots of i.

1). Consider the quadratic equation x^2+ 100 x + 1 = 0 (i) Compute approximate roots...

1). Consider the quadratic equation x^2+ 100 x + 1 = 0 (i) Compute approximate roots by solving x^2 -100 x = 0 (ii) Use the quadratic formula to compute the roots of equation (iii) Repeat the computation of the roots but use 3 digit precision.

find the 2 square roots of 3 - 8j

find the 2 square roots of 3 - 8j

1. a) Express z = −i−sqrt(3) in the form r cis θ, where θ= Argz, and...

1. a) Express z = −i−sqrt(3) in the form r cis θ, where θ= Argz, and then use de Moivre’s theorem to find the two square roots of −4i. b) Consider: i) p(z)=iz^2+z^3+2iz−2z^2+2z. Given that z=2−2i is a zero of this polynomial, find all of its zeros. ii) p(z)=z^3−2z^2+9z−18. Factorise into linear factors.

Notes 2.5 1 is a square (mod 35). Two of its square roots are 1 and...

Notes 2.5 1 is a square (mod 35). Two of its square roots are 1 and (‐1 ≡ 34 (mod 35)). What are the other two? Notes 2.6 Consider all the possible sets of two square roots s, t of 1 (mod 35) where s ≢ t (mod 35) (there are six of them, since addition is commutative (mod 35). For all possible combinations, compute gcd(s + t, 35). Which combinations give you a single prime factor of 35? Notes...

compute the roots of the equation 4x^3+5x^2-8x+3

compute the roots of the equation 4x^3+5x^2-8x+3

Find a polynomial in R[x] of minimum degree which has roots 3, i+1 and -3i.

Find a polynomial in R[x] of minimum degree which has roots 3, i+1 and -3i.

Let f ∈ Z[x] be a nonconstant polynomial with the property that all the roots (in...

Let f ∈ Z[x] be a nonconstant polynomial with the property that all the roots (in comlex plane) for the equation f(x) = 0 are distinct. Prove that there exist infinitely many positive integers n such that f(n) is not a perfect square.

Complex Analysis: Use Rouche's Theorem and Argument Principle to determine the number of roots of p(z)=z^4-2z^3+13z^2-2z+36...

Complex Analysis: Use Rouche's Theorem and Argument Principle to determine the number of roots of p(z)=z^4-2z^3+13z^2-2z+36 which lie in each quadrant of the plane. (Hint: Consider |z|=5 and |z|=1)

1a) i) Find the real and imaginary part of: 1/(-4-4i)^6 ii) Find the fifth roots of...

1a) i) Find the real and imaginary part of: 1/(-4-4i)^6 ii) Find the fifth roots of 32i principle argument. iii) Find the principle argument of z=cis(13Pi/6) z=-cis(3Pi/4)