Exam 8: Applications of Trigonometry

Solve the problem. -A force of $35 \mathrm { lb }$ is required to hold a $78 \mathrm { lb }$ toolbox on an incline. What angle does the incline make with the horizontal?

Find the polar coordinates of the point(s) of intersection of the given curves for 0 ≤ θ < 2π. - $\mathrm { r } = 4 \cos \theta , \mathrm { r } = - 1 + 2 \cos \theta$

Determine whether the pair of vectors is orthogonal. - $\langle 3,1 \rangle , \langle - 6,36 \rangle$

Find the quotient and write in rectangular form. First convert the numerator and denominator to trigonometric form. - $\frac { 5 \left( \cos 200 ^ { \circ } + i \sin 200 ^ { \circ } \right) } { 4 \left( \cos 50 ^ { \circ } + i \sin 50 ^ { \circ } \right) }$

Find the given power. Write answer in rectangular form. - $[ - 3 + 3 i \sqrt { 3 } ] ^ { 3 }$

Solve the problem. -Two forces of 575 newtons and 271 newtons act at a point. The resultant force is 657 newtons. Find the angle between the forces.

Write the complex number in rectangular form. - $6 \left( \cos 330 ^ { \circ } + i \sin 330 ^ { \circ } \right)$

Determine whether there is sufficient information for solving a triangle, with the given combination of angles and sides, by the law of sines. -B, a, and c

Plot the point. - $\left( 2 , \frac { 5 \pi } { 4 } \right)$

Find the quotient and write in rectangular form. First convert the numerator and denominator to trigonometric form. - $\frac { 8 + 2 i } { 3 - 9 i }$

Graph the complex number. - $4 \sqrt { 5 } - 4 i \sqrt { 5 }$

Determine two pairs of polar coordinates for the point with 0° ≤ θ < 360°. - $( - 2 \sqrt { 2 } , - 2 \sqrt { 2 } )$

Write the complex number in trigonometric form $r ( \cos \theta + i \sin \theta )$ with θ in the interval [0°, 360°). - $8 \sqrt { 3 } + 8 \mathrm { i }$

Graph the cycloid for t in the indicated interval. - $x = t - \sin t , y = 1 - \cos t , - 4 \pi \leq t \leq 4 \pi$

Find the product. Write the product in rectangular form, using exact values. -[7( $\left. \left. \cos 45 ^ { \circ } + \mathrm { i } \sin 45 ^ { \circ } \right) \right] \left[ 2 \left( \cos 90 ^ { \circ } + \mathrm { i } \sin 90 ^ { \circ } \right) \right]$

Determine whether the pair of vectors is orthogonal. - $\langle - 2,6 \rangle , \langle 6 , - 5 \rangle$

Find the magnitude and direction angle (to the nearest tenth) for each vector. Give the measure of the direction angle as an angle in [0,360°]. - $\langle - 5 \sqrt { 3 } , 5 \rangle$

Solve the problem. -A projectile is fired with an initial velocity of 300 feet per second at an angle of $70 ^ { \circ }$ with the horizontal. In how many seconds will the projectile reach its maximum altitude? (Round your Answer to the nearest tenth of a second.)

Find all solutions of the equation. Leave answers in trigonometric form. - $x ^ { 3 } - 8 = 0$

Solve the problem. -Two tracking stations are on the equator 171 miles apart. A weather balloon is located on a bearing of $\mathrm { N } \mathrm {} 36 ^ { \circ } \mathrm { E }$ from the western station and a bearing of $\mathrm { N } \mathrm {} 18 ^ { \circ } \mathrm { E }$ from the eastern station. How far, to the nearest mile, is the balloon from the western station? Round to the nearest mile.