Directions: In 1-6, determine the polar form of the given rectangular equation. [1] 36x +36y? -...
Directions: In 1-6, determine the polar form of the given rectangular equation. [1] 36x² + 36y² = 3600 A. = 360° B. r= 100 C. r=-10 D. r = 36 E. none of these [2] 16x - 5y = 20 A r = 16 -5cos + 20 sine B. r = -5 20cos + 16 sin c. r = 20 16 cos 0 - 5sine D. = tan 16 5 272.646° E. none of these [3] y = x A....
Directions: In 1-6, determine the polar form of the given rectangular equation. (1) 36x² + 36y2 = 3600 A. 6 = 360° B. r=100 c. r=-10 D. r = 36 E. none of these [2] 16x - 5y = 20 A = 16 -5 cose + 20sine B. = 20cos 8 + 16 sine C. 20 16 cos8 - 5sin 8 D. 8 = tan * 72.646 E. none of these [3] y = x A. 0-45° B. 0-45° c....
The general solution of y(1) – 5y" – 36y = 0) is: (a) y = Cicos 3x + C2 sin 3x + C3e2x + C4e-20 (b) y=Ci cos 3x + C2 sin 3x + C3 cos 2x + C4 sin 2.0 (e) y=Cicos 2x + C2 sin 2x + C3e3x + Cae-31 (d) y=Cicos 2x + C2 sin 2x + C3e3x + Caxe3r (e) None of the above.
Directions: In 7-10, determine the rectangular equation given its polar form. [7] = 9 A. x + y2 = 3 B. x + y2 = 9 c. x + y2 = 81 D. x + y = 9 [8] r = -179csce A. X = -179 B. x = 179 c. y = -179 D. y = 179 E. none of these 1918- 3 13 A. y = B. y = C. y = - 13x D. y = 13x...
Directions: In 7-10, determine the rectangular equation given its polar form. 17] r = 9 C. x² + y2 = 81 D. x + y = 9 A. x² + y2 = 3 B. x + y2 = 9 [8] r = -179csc D. y = 179 E. none of these A. x = -179 B. x = 179 C. y = -179 [9] @ - 7 V3 A. y = 13 3 B. y = х X c. y...
Directions: In 7-10, determine the rectangular equation given its polar form. [7] = 9 A. x + y2 = 3 B. x + y2 = 9 C. x² + y2 = 81 D. x + y = 9 [8] r = - 179csce A. X = -179 B. x = 179 c. y = -179 D. y = 179 E. none of these [9] @ = 13 A. y =- 13 3 x B.y = c. y = -13 D....
O ADDITIONAL TOPICS IN TRIGONOMETRY Converting an equation written in polar form to one written in r... Convert each polar equation to rectangular form. (a) r = 8 cos e Po OG Rectangular form: 6 ? (b) r = - 6 cos 0 + 5 sine Rectangular form:
Starting from equation (6), derive the equation for the experimental uncertainty in wavelength due to the uncertainties in d and θ. Refer to page xx of the introduction of the lab manual for information on handling the sine function. Do not use calculus. If the ruling spacing is known and the angular position of a spectral line in a known order is measured, the wavelength of the light forming that spectral line can be calculated: dsin Obright 2=- m If...
1-17 u ule exact value of the expression 1) cos? 30+ cos? 60 2) cot 45-tan 45 5-6 Use the given information to find the exact value 3) sin? 53 + cos2 53 4) cot 20 -tan 20 5) sin = , where is in quadrant 1. Find tan 6) tan 0 = - , where is in quadrant 4. Find sec 7-12 Verify the identity 7) tan sin cos 0 = sin? 8) tane = sine 9) tancos? +...
1. Malus' law explained by the equation (a) 1 = 1, cos? 20 (c) 1 = lo cos 40 (b) 1 = 1, cos (d) None 2. Brewster's law relates the polarizing angle (e.) to the index of refraction (n) as (a) n= sine, (c) n= cose, (b) n=tane, (d) None 3. f-number of a camera can be defined as (a) 2f/D (c) f/2D (b) f/D (d) None 4. The limiting angle of resolution (Omin) depends on the diameter, D,...