Only two of the complex number identities below are true. Find and prove these two in detail. Remember to show all your work and label all your steps. (cos(0) + į · sin(0)) = cos(58) + į· sin(50) (cos(e) + į· sin(0))s = (cos(0))5 +į· (sin(e)) (cos(0) + į · sin(0)) = (cos(0))" + 5 cos(0) – 10 sin(0) cos(0) + 5i · sin(0) + i* · (sin(0))S ах — by + i:(bх + ay) x² – y² a + bi x + iy a + bi a b = -+i: - x + iy ах + by +i:(bx — ау) x² + y² a + bi x + iy II
Only two of the complex number identities below are true. Find and prove these two in detail. Remember to show all your work and label all your steps. (cos(0) + į · sin(0)) = cos(58) + į· sin(50) (cos(e) + į· sin(0))s = (cos(0))5 +į· (sin(e)) (cos(0) + į · sin(0)) = (cos(0))" + 5 cos(0) – 10 sin(0) cos(0) + 5i · sin(0) + i* · (sin(0))S ах — by + i:(bх + ay) x² – y² a + bi x + iy a + bi a b = -+i: - x + iy ах + by +i:(bx — ау) x² + y² a + bi x + iy II
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter24: Resistive-inductive-capacitive Parallel Circuits
Section: Chapter Questions
Problem 1RQ: An AC circuit contains a 24 resistor, a 15.9-mH inductor, and a 13.3F capacitor connected in...
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Please show all work and calculations in detail. Please label steps and provide explanations where possible. Thank you!
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