Find |w| without finding w? w is a complex number

Answered question

2022-01-17

Find |w| without finding w?
w is a complex number that satisfy:
5w33i|w|22i=0
Can we find |w| without finding w or easy root?

Answer & Explanation

nick1337

nick1337

Expert2022-01-19Added 777 answers

Step 1 Take w=reiϕ. Then you get: 5r3ei3ϕ3ir22i=0 Which can be rearranged to: 5r3ei3ϕ=i(3r2+2) divide by i on both sides: 5r3ei3ϕiπ2=3r2+2R since RHS is real and positive, LHS is real and positive, i.e. ei3ϕiπ2=1 Thus we get: 5r33r22=0 and we want the positive real roots to this equations, which is r=1 EDIT: Fixed an error.
Vasquez

Vasquez

Expert2022-01-19Added 669 answers

Step 1 For any solution w, the two complex numbers 5w3 and (3|w|2+2)i are the same hence their modulus are the same: 5(w)3=3(w)2+2 This means that the modulus r of any solution w is such that 5r33r22=0 Here ends the answer to the OP question. Naturally one can go further since an obvious solution of the r equation is r=1. Ytnce 5r33r22=(r1)(5r2+2r+2) and, since 5r2+2r+2=0 has no real solution, every solution of the w equation is such that |w|=1 All this does not say that there exists any solution w at all but one can go further and note that a complex number w such that |w|=1 is a solution iff the argument of w3 is π2 hence the argument of w is π6 or 5π6 or 3π2 Finally the three solutions are eiπ6=3+i2 ei5π6=3+i2 and ei3π2=i
alenahelenash

alenahelenash

Expert2022-01-24Added 556 answers

Since the second and third terms are pure imaginary, the angle of the solution is either π6, 5π6, or 3π2. To solve for the magnitudes, just solve the real equation 5w33w22=0 which clearly has a real positive root at 1.

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