Find Mobius transformations mapping {z : Im(z) > 0} onto D(0; 1) and mapping imaginary axis...

Let f be a Mobius transformation such that f(1)=∞ and f maps the imaginary axis onto...

Let f be a Mobius transformation such that f(1)=∞ and f maps the imaginary axis onto the unit circle |w| = 1. What is the value of f (−1)?

7. Transformations. (1) Find a Mo ̈bius transformation that maps the open half-disk S = {z...

7. Transformations. (1) Find a Mo ̈bius transformation that maps the open half-disk S = {z : |z| < 1, Im z > 0} to a quadrant. (2) Find a 1 − 1 conformal mapping of the quadrant to the upper half-plane. (3) Find a M ̈obius transformation mapping the upper half-plane to the unit disk D = {z : |z| < 1}. (4) Compose these to give a 1 − 1 conformal map of the half-disk to the unit...

1. a) Draw a sketch of: {z∈C|Im((3−2i)z)>6}. b) If 2i is a zero of p(z)=az^2+z^3+bz+16, find...

1. a) Draw a sketch of: {z∈C|Im((3−2i)z)>6}. b) If 2i is a zero of p(z)=az^2+z^3+bz+16, find the real numbers a,b. c) Let p(z)=z^4−z^3−2z^2+a+6z, where a is real. Given that 1+i is a zero of p(z): Find value of a, and a real quadratic factor of p(z). Express p(z)as a product of two real quadratic factors to find all four zeros of p(z).

Find the set of complex numbers z satisfying the two conditions: Re((z+1)^2)=0 and Im((z−1)^2)=2. Here Re(a...

Find the set of complex numbers z satisfying the two conditions: Re((z+1)^2)=0 and Im((z−1)^2)=2. Here Re(a + bi) = a and Im(a + bi) = b if both a, b ∈ R. Then find the cardinality of the set.

A current filament carrying 8 A in the az direction lies along the entire z axis...

A current filament carrying 8 A in the az direction lies along the entire z axis in free space. A rectangular loop connecting A(0,0.2,0) to B(0,0.2,0.3) to C(0,0.7,0.3) to D(0,0.7,0) to A lies in the x = 0 plane. The loop current is 3 mA and it flows in the az direction in the AB segment. (a) Determine F on side AB. (b) Determine F on side DA. (c) Determine the total force Ftotal on the loop.

. In this question, i ? C is the imaginary unit, that is, the complex number...

. In this question, i ? C is the imaginary unit, that is, the complex number satisfying i^2 = ?1. (a) Verify that 2 ? 3i is a root of the polynomial f(z) = z^4 ? 7z^3 + 27z^2 ? 47z + 26 Find all the other roots of this polynomial. (b) State Euler’s formula for e^i? where ? is a real number. (c) Use Euler’s formula to prove the identity cos(2?) = cos^2 ? ? sin^2 ? (d) Find...

w = f(z) = z2. S = {z: Im(z) = b} . Find the image f(S)....

w = f(z) = z2. S = {z: Im(z) = b} . Find the image f(S). Draw a picture and explain what’s happening. Note that x = a and y = b intersect in one point, but their images under f(z) = z2 intersect in 2 points. How is this possible? Can you show that the images intersect perpendicularly?

A thin rod extends along the z-axis form z = -d to z = d. The...

A thin rod extends along the z-axis form z = -d to z = d. The rod carries a charge Q uniformly distributed along its length 2d with linear charge density λ = Q/2d. a) Find the electric potential at a point z > d along the z-axis. Indicate clearly where you have chosen your zero reference point for your potential. b) Use the relationship E = - ∇ V to find the electric field at a point z >...

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)

Find the value of z which fulfill the equations below az^2+bz+c=0         a must not be 0...

Find the value of z which fulfill the equations below az^2+bz+c=0         a must not be 0 z^3 = -1 z^4 = -i16 z^4 = -1+i These are from complex number roots section