write each complex number in standard form a+bi, and plot each
in the complex plane
- 2 (cos 150° + i sin 150°) N D.
Simplify and write the complex number in standard form. 6 + 1 5 + 7i
Write the following complex number in standard form, z = a + bi. Use the exact form if possible; otherwise, use a decimal approximation rounded to the hundredths place. *( () + sin()
Owrite the trigonometric form of the complex number: T+4i (round 2 decimal places) 2 Write the standard form of the complex number: (cos() +isin( + ③ Write the standard form of the complex number: 148 Cos -45°) +isin (45)
Write the standard form of the complex number. (Round numerical values to four decimal places.) Зл Зл 6(cos(37) i sin(37)) x
Find two square roots for the complex number. Write your answer in standard form. 32-321/3
Find two square roots for the complex number. Write your answer in standard form. -32-321/3
Plot the complex number on the complex plane and write it in polar form and in exponential form. 3-41 Plot the complex number on the complex plane. Write the complex number 3 - 4 i in polar form. Select the correct choice below and fill in the answer box(es) within your choice. (Simplify your answer. Type an exact answer for r, using radicals as needed. Type any angle measures in radians, rounding to three decimal places as needed. Use angle...
Plot the complex number. Then write the complex number in polar form. Express the argument as an angle between 0 degrees and 360 degrees . 1-4i z=___(cos__+i sin__)
Write the complex number in trigonometric form. Round the angle to the nearest hundredth of a degree. -11-2i Write the complex number in trigonometric form. Round the angle to the nearest hundredth of a degree. 4-3i Write the complex number in trigonometric form. Begin by sketching graph to help find the argument θ. - 2+2i