|
Click on a 'View Solution' below for other questions:
|
cc Find the indicated power of [7(cosθ2-i sinθ2)]14.
cc |
View Solution |
|
|
|
|
|
|
|
|
|
|
|
|
|
cc Change the rectangular coordinates P (3, - 4) to polar coordinates.
cc |
View Solution |
|
|
|
|
|
|
|
|
|
|
|
| cc Using De Moivre's theorem, write (1 - i)4 in the form of a + ib. cc |
View Solution |
|
cc Change the rectangular coordinates A (2, 3) to polar coordinates.
cc |
View Solution |
|
cc Using De Moivre's theorem, express (3 + i)6 in the standard form a + i b.
cc |
View Solution |
|
|
|
cc Find the indicated power of the complex number in standard form a + ib.
(12+32 i)12 cc |
View Solution |
|
cc Change the polar coordinates P(4, 45°) to rectangular coordinates.
cc |
View Solution |
|
cc Find the indicated power of [5(cosθ2-i sinθ2)]10.
cc |
View Solution |
|
| cc Change the polar coordinates P (- 4, 60°) to rectangular coordinates. cc |
View Solution |
|
|
|
cc Change the polar coordinates A (6, 150°) to rectangular coordinates.
cc |
View Solution |
|
cc Simplify:
cos 3θ + i sin 3θcos θ + i sin θ
cc |
View Solution |
|
cc Change the rectangular coordinates B (- 3, 1) to polar coordinates.
cc |
View Solution |
|
cc Change the rectangular coordinates Q (- 3, 0) to polar coordinates.
cc |
View Solution |
|
| cc Change the polar coordinates B (8, - 330°) to rectangular coordinates. cc |
View Solution |
|
| cc Change the polar coordinates P (- 3, 240°) to rectangular coordinates. cc |
View Solution |
|
|
|
cc Express the complex number - 5 + 5i in polar form.
cc |
View Solution |
|
|
|
|
|
cc Express the complex number 2 + i in polar form.
cc |
View Solution |
|
cc Express the complex number - 3 + 2i in polar form.
cc |
View Solution |
|
|
|
cc Express in standard form (cos 60° + i sin 60°).
cc |
View Solution |
|
cc Express - 2(cos 150° + i sin 150°) in standard form.
cc |
View Solution |
|
cc Express cos 10° + i sin 10° in standard form.
cc |
View Solution |
|
cc Express 0.3(cos 174° + i sin 174°) in standard form.
cc |
View Solution |
|
| cc Change the polar coordinates Q (- 3, - 270°) to rectangular coordinates. cc |
View Solution |
|
| cc Express 2[cos (- 60°) + i sin (- 60°)] in standard form. cc |
View Solution |
|
cc Change the rectangular coordinates A (- 5, - 53) to polar coordinates.
cc |
View Solution |
|
cc Simplify:
(cos 2θ + i sin 2θ)3(cos 3θ + i sin 3θ)2
cc |
View Solution |
|
| cc Find the indicated power of [3(cos 10°+ i sin 10°)]9. cc |
View Solution |
|
|
|
|
|
| f Use De Moivre's theorem to express (1 + i)10 in the standard form a + ib. f |
View Solution |
|
|
|
f Find [1 - i2]5 using De Moivre's theorem.
f |
View Solution |
|
| f If Z = 3(cos π4 + i sin π4) and W = 2(cos π2 + i sin π2), then find ZW . f |
View Solution |
|
f If Z = 2(cos 4θ + i sin 4θ) and W = (cos θ2 + i sin θ2), then find ZW.
f |
View Solution |
|
| f If Z1 =3 + i and Z2 = 1 + i, then find the product of Z1Z2. f |
View Solution |
|
| f If Z1 = 8[cos π2 + i sin π2] and Z2 = 2[cos π4 + i sin π4], then find the value of z1z2. f |
View Solution |
|
f Simplify:
(cos θ+ i sin θ)6cos 3θ+i sin 3θ f |
View Solution |
|
|
|
| f If Z1 = 2(cos 3θ+i sin 3θ) and Z2 = 12(cos θ+i sin θ), then find the value of Z1Z2. f |
View Solution |
|
|
|
|
|
f Find the fourth roots of 81(cos 240o + i sin 240o).
f |
View Solution |
|
|
|
| f What is the argument of the complex number 2 - i2? f |
View Solution |
|
f Change the rectangular coordinates P (0, 5) to polar coordinates.
f |
View Solution |
|
f If n is a positive integer, then find the value of (1+ cos α + i sin α)n.
f |
View Solution |
|
| f If 2cos θ = a + 1a and 2cos j = b + 1b, then find the value of cos (θ - j). f |
View Solution |
|
f Given that |z| = 4 and arg z = 5π6 then z = ________
f |
View Solution |
|
f Express in polar form the roots of x5 - 32 = 0 which when graphed would be a vector in the second quadrant.
f |
View Solution |
|
f If x + 1x = 2cos π18, then find the value of x9+1x9.
f |
View Solution |
|