Deck 8: Polar Coordinates, Vectors, and Complex Numbers

Find two real numbers b such that

= 17.

Find two real numbers a such that
= 5.

Write
in polar form. Give the exact answer using radians for
.

Write in polar form. Give the exact answer using radians for
.

Write in polar form. Give the exact answer using radians for .

Write in polar form. Give the exact answer using radians for .

Evaluate .

Write 7 in polar form.

Write 10i in polar form. Give the exact answer using radians for

.

Suppose and . Find the polar form of . Give the exact answer using radians for

.

Suppose and . Find the polar form of . Give the exact answer using radians for

.

Find four distinct numbers z such that
. Give the exact answer.

Evaluate
.

Find three distinct numbers z such that
. Give the exact answer.

Evaluate
.

Evaluate
.

Find the complex conjugate of
.

Evaluate . Give the exact answer.

Write in polar form. Give the exact answer using radians for
.

Write in polar form. Give the exact answer using radians for .

Write in polar form. Give the exact answer using radians for
.

Evaluate

Find four distinct complex numbers z such that z⁴ = -5. Give the exact answers.

The complex number $z = 4^{\frac{1}{6}} \left(-\frac{\sqrt{3}}{2} + \frac{i}{2}\right)$ satisfies the equation $z^6$ = -4

Write the expression in the form a + bi, where a and b are real numbers.
(2 + 10i) + (9 + 5i)

Write the expression in the form a + bi, where a and b are real numbers.
(8 + 7i) - (4 + 10i)

Write the expression in the form a + bi, where a and b are real numbers.
(3 + 6i) - (2 - 5i)

Write the expression in the form a + bi, where a and b are real numbers.
(2 + 7i)(9 + 9i)

Write the expression in the form a + bi, where a and b are real numbers.
(10 + 4i)(6 - 4i)

Write the expression in the form a + bi, where a and b are real numbers.
(4 - 4i)(10 - 9i)

Write the expression in the form a + bi, where a and b are real numbers.
(8 + 9i)²

Write the expression in the form a + bi, where a and b are real numbers.
(5 - 9i)²

Write the expression in the form a + bi, where a and b are real numbers.

Write the expression in the form a + bi, where a and b are real numbers.

Write the expression in the form a + bi, where a and b are real numbers.

Write the expression in the form a + bi, where a and b are real numbers.
(7 + 6i)³

Write the expression in the form a + bi, where a and b are real numbers.

Write the expression in the form a + bi, where a and b are real numbers.
i¹¹⁸²

Write the expression in the form a + bi, where a and b are real numbers.

Write the expression in the form a + bi, where a and b are real numbers.

Write the expression in the form a + bi, where a and b are real numbers.

Suppose w and z are complex numbers. If the real part of wz equals the real part of w times the real part of z, then either w or z is a real number.

If z is any complex number, then $z \neq \overline{z}$

Let z = a + bi be any complex number such that $z \neq 0$ , then $\frac{1}{z} = \frac{a-bi}{a^2+b^2}$

Find two complex numbers whose sum equals 14 and whose product equals 58.

Find two possible complex solution to the equation. Give the exact answers.

Suppose u = (8, -1). Evaluate $|\mathbf{u}|$

Find two distinct numbers k such that . Give the exact answers.

Suppose u = (2, 1) and v = (3, 1). Compute .

Use the dot product to find the angle between the vectors (-2, -4) and (4, 5). Express your answer in radians to four decimal places.

If u and v are two vectors with the same initial point, then $\left| u-v \right|$ equals the distance between the endpoint of u and the endpoint of v.

Let z = 10-2i and w = 9-2i be two complex numbers. The imaginary part of z + w is -4i.

Find an angle that determines the direction of the vector (-2, 5). Express your answer in decimal radians rounded to three decimal places.

Find an angle that determines the direction of the vector (-6, -4). Express your answer in decimal radians rounded to three decimal places.

Suppose the wind at airplane heights is 35 miles per hour (relative to the ground) moving 25° north of east. Relative to the wind, an airplane is flying at 350 miles per hour 55° south of the wind. Find the speed and direction of the airplane relative to the ground. Round the speed to 2 decimal places and the angle to the tenth of a degree.

Suppose the wind at airplane heights is 40 miles per hour (relative to the ground) moving 18° south of east. An airplane wants to fly directly north at 340 miles per hour relative to the ground. Find the speed and direction that the airplane must fly relative to the wind. Round the speed to 2 decimal places and the direction to a tenth of a degree.

Use the dot product to find the angle between the vectors (3, 9) and (2, 5). Express your answer in radians to four decimal places.

Suppose u = (3, -3) and v = (-2, 3). Find u + v.

Suppose u = (3, -5) and v = (4, -3). Find u - v.

Suppose u = (3, -6). Find -7u.

Convert the polar coordinates r = 5, to rectangular coordinates in the xy-plane.

Convert the polar coordinates r = 5, to rectangular coordinates in the xy-plane. Give the exact answer.

Convert the polar coordinates r = 17, to rectangular coordinates in the xy-plane. Give the exact answer.

Convert the polar coordinates r = 3, to rectangular coordinates in the xy-plane. Give the exact answer.