Write the equation of the given line in slope-intercept form and match with the correct alternate form. 10. A

Slope & y-intercept Class Work Identify the slope and y-intercept for each equation 1. y = 3x 4 2. y = 2x 3. y = 7 4. x = 5 5. y = 0 6. y 3 = 4(x + 6) 7. y + 2 = 1 (x + 6) 8. 2x + 3y = 9 9. 4x 7y = 14 2 Write the equation of the given line in slope-intercept form and match with the correct alternate form. 10. A I. y + 4 = 1 (x 2) 2 11. B 12. C II. No Alternate Form (Slope Undefined) III. 5x + 7y = 35 IV. y 6 = 3(x 4) 13. D 14. E V. 2x 7y = 14 VI. y 6 = 0(x + 2) 15. F 16. Write an equation: Cal C. drives past mile marker 27 at 11am and mile marker 145 at 1pm. Pre-Calc Parent Functions ~1~ NJCTL.org

Slope & y-intercept Homework Identify the slope and y-intercept for each equation 17. y = 5x 2 18. y = 3x 19. y = 2 20. x = 10 21. x = 0 22. y 4 = 2(x 8) 23. y + 3 = 2 (x + 10) 24. 3x + 4y = 12 25. 2x 6y = 12 5 Write the equation of the given line. 26. A 27. B I. y + 4 = 4(x 3) II. x + 3y = 1 III. y + 6 = 0(x 1) 28. C IV. No Alternate Form (Slope Undefined) 29. D V. 3x 2y = 8 VI. 2x 9y = 2 30. E 31. F 32. Write an equation: Cal C. drives past mile marker 45 at 11am and mile marker 225 at 2pm. Pre-Calc Parent Functions ~2~ NJCTL.org

Standard Form Class Work Find the x and y intercepts for each equation. 33. 2x + 3y = 12 34. 4x + 5y = 10 35. x 3y = 10 36. 4x = 9 37. y = 0 Standard Form Homework Find the x and y intercepts for each equation. 38. 3x 5y = 15 39. 7x + 2y = 14 40. x y = 9 41. y = 7 42. x = 0 Pre-Calc Parent Functions ~3~ NJCTL.org

Horizontal and Vertical Lines Class Work Write the equation for the described line 43. vertical through (1,3) 44. horizontal through (1,3) 45. vertical through (-2, 4) 46. horizontal through (-2, 4) Horizontal and Vertical Lines Homework Write the equation for the described line 47. vertical through (4,7) 48. horizontal through (8,-10) 49. vertical through (8, -10) 50. horizontal through (4, 7) Pre-Calc Parent Functions ~4~ NJCTL.org

Parallel and Perpendicular Lines Class Work Write the equation for the described line in slope intercept form 51. Parallel to y = 3x + 4 through (3,1) 52. Perpendicular to y = 3x + 4 through (3,1) 53. Parallel to y = 1 x + 6 through (4, 2) 54. Perpendicular to y = 1 x + 6 through (4, 2) 2 2 55. Parallel to y = 5 through ( 1, 8) 56. Perpendicular to y = 5 through ( 1, 8) Parallel and Perpendicular Lines Homework Write the equation for the described line in slope intercept form 57. Parallel to y = 2x + 1 through ( 6,1) 58. Perpendicular to y = 2x + 1 through ( 6,1) 59. Parallel to y = 1 x 5 through ( 6,0) 60. Perpendicular to y = 1 x 5 through ( 6,0) 3 3 61. Parallel to x = 5 through ( 3,7) 62. Perpendicular to x = 5 through ( 3,7) Pre-Calc Parent Functions ~5~ NJCTL.org

Point-Slope Form Class Work Write the equation for the described line in point slope form. 63. Slope of 6 through (5,1) 64. Slope of -2 through ( 4,3) 65. Slope of 1 through (8,0) 66. Perpendicular to y = 2x + 1 through (1, 6) Convert the following equations to slope-intercept form and standard form 67. y 4 = 5(x + 3) 68. y = 2(x 1) 69. y + 7 = 1 (x 10) 5 Point-Slope Form Homework Write the equation for the described line in point slope form. 70. Slope of -4 through (4, 2) 71. Slope of 3 through (0, 9) 72. Slope of 1 / 4 through (6,0) 73. Perpendicular to y = 1 x + 6 through (5, 2) 2 Convert the following equations to slope-intercept form and standard form 74. y 3 = 7(x 2) 75. y + 1 = 4(x 7) 76. y + 3 = 1 (x 18) 6 Pre-Calc Parent Functions ~6~ NJCTL.org

Writing Linear Equations Class Work Write an equation based on the given information in slope intercept form. 77. A line through (7, 1) and ( 3,4) 78. A line through (8,2) and (6, 2) 79. A line perpendicular to y 7 = 1 (x + 2) through ( 1, 8) 2 80. A line parallel to 4x 6y = 10 through (9,7) 81. A function with constant increase passing through (2,3) and (8,9) 82. The cost of a 3.8 mile taxi ride cost $5.50 and the cost of a 4 mile ride costs $5.70 83. A valet parking services charges $45 for 2 hours and $55 for 3 hours Pre-Calc Parent Functions ~7~ NJCTL.org

Writing Linear Equations Homework Write an equation based on the given information in slope intercept form. 84. A line through (4,9) and ( 5, 9) 85. A line through ( 8,2) and (8,2) 86. A line perpendicular to 4x 6y = 10 through (2,2) 87. A line parallel to y 7 = 1 (x + 2) through (2,2) 2 88. A function with constant decrease passing through (2,3) and (8, 9) 89. The cost of a 3.8 mile taxi ride cost $8.25 and the cost of a 4 mile ride costs $8.75 90. A valet parking services charges $55 for 2 hours and $75 for 4 hours Pre-Calc Parent Functions ~8~ NJCTL.org

Absolute Value Functions Class Work Graph each function. For each, state the domain and range. 91. y = x 4 92. y = 2x 93. y = 2x 4 94. y = 2 x 95. y = x + 3 96. y = 2 x + 3 97. y = x 3 98. y = 1 2 x 3 Pre-Calc Parent Functions ~9~ NJCTL.org

Absolute Value Functions Homework Graph each function. For each, state the domain and range. 99. y = x + 2 100. y = 3x 101. y = 3x + 2 102. y = 2 3 x 103. y = x 1 104. y = 2 3 x 1 105. y = x + 4 106. y = 1 4 x + 4 Pre-Calc Parent Functions ~10~ NJCTL.org

Greatest Integer Functions Class Work Graph each function. For each, state the domain and range. 107. y = [x 4] 108. y = [2x] 109. y = [2x 4] 110. y = 2[x] 111. y = [x] + 3 112. y = 2[x] + 3 113. y = [x 3] 114. y = 1 2 [x] 3 Pre-Calc Parent Functions ~11~ NJCTL.org

Greatest Integer Functions Homework Graph each function. For each, state the domain and range. 115. y = [x + 2] 116. y = [3x] 117. y = [3x + 2] 118. y = 2 3 [x] 119. y = [x] 1 120. y = 2 3 [x] 1 121. y = [x + 4] 122. y = 1 4 [x] + 4 Pre-Calc Parent Functions ~12~ NJCTL.org

Identifying Exponential Growth and Decay Class Work State whether the given function exponential growth or decay. Identify the horizontal asymptote and the y-intercept. 123. A B 124. y = 3(4) x 125. y = 1 2 (3)x 126. y = ( 1 2 )x + 4 127. y = 2 ( 1 4 )x 7 128. y = 100 ( 1 3 )x + 50 129. y = 17(4) x 130. y = 12 ( 3 4 ) x + 6 131. y = 1 2 (5) x 2 Pre-Calc Parent Functions ~13~ NJCTL.org

Identifying Exponential Growth and Decay Homework State whether the given function exponential growth or decay. Identify the horizontal asymptote and the y-intercept. 132. A B 133. y = 3 ( 2 5 )x 134. y = 5(3) x 135. y = 6 ( 1 2 )x + 4 136. y = 4(25) x 7 137. y = 100 ( 1 3 ) x + 50 138. y = 17(4) x 139. y = 12 ( 3 4 )x + 6 140. y = 2 5 (7)x 1 Pre-Calc Parent Functions ~14~ NJCTL.org

Graphing Exponentials Class Work Graph each equation. 141. y = 3(4) x 142. y = 1 2 (3)x 143. y = ( 1 2 )x + 4 144. y = 2 ( 1 4 )x 7 145. y = 100 ( 1 3 )x + 50 146. y = 17(4) x 147. y = 12 ( 3 4 ) x + 6 Pre-Calc Parent Functions ~15~ NJCTL.org

Graphing Exponentials Homework Graph each equation 148. y = 3 ( 2 5 )x 149. y = 5(3) x 150. y = 6 ( 1 2 )x + 4 151. y = 4(25) x 7 152. y = 100 ( 1 3 ) x + 50 153. y = 17(4) x 154. y = 12 ( 3 4 )x + 6 Pre-Calc Parent Functions ~16~ NJCTL.org

Intro to Logs Class Work Write each of the following in log form. 155. 10 2 = 100 156. 2 4 = 16 157. 27 = 3 3 Write each of the following in exponential form. 158. log 5 125 = 3 159. log 6 36 = 2 160. log 7 343 = 3 Solve the following equations 161. log 4 64 = x 162. log 2 64 = x 163. log 3 y = 5 164. log 6 y = 3 165. log b 81 = 4 166. log b 10 = 1 167. log 5 (x 2) = log 5 (2x 8) 168. log 4 (2x + 7) = log 4 (4x 9) Pre-Calc Parent Functions ~17~ NJCTL.org

Intro to Logs Homework Write each of the following in log form. 169. 9 2 = 81 170. 2 5 = 32 171. 81 = 3 4 Write each of the following in exponential form. 172. log 8 64 = 2 173. log 4 256 = 4 174. log 3 81 = 4 Solve the following equations 175. log 4 1024 = x 176. log 2 128 = x 177. log 5 y = 4 178. log 7 y = 4 179. log b 1000 = 3 180. log b 1024 = 10 181. log 5 (x + 2) = log 5 (3x 8) 182. log 4 (3x 6) = log 4 (x + 10) Pre-Calc Parent Functions ~18~ NJCTL.org

Properties of Logs Class Work Using Properties of Logs, fully expand each expression 183. log 4 xy 3 z 4 184. log 6 w x 2 y 185. log 7 7m 2 (uv) 2 Using log 2 5 2.3219 and log 2 10 3.3219, evaluate the following 186. log 2 50 187. log 2 100 188. log 2 20 Using Properties of Logs, rewrite the expression as a single log. 189. log x + log y log z 190. 1 3 log 5 m 191. 5 log k 3(log r + log t) Solve the following equations 192. log 3 x + log 3 4 = 5 193. log 2 x + log 2 (x + 3) = 2 194. log 3 x + 1 2 log 3 4 = 1 4 log 3 16 195. log 3 x + log 3 (x 2) = log 3 35 196. 2 log 3 x log 3 4 = log 3 16 197. log 3 (x + 3) + log 3 (x 2) = log 3 66 Pre-Calc Parent Functions ~19~ NJCTL.org

Properties of Logs Home Work Using Properties of Logs, fully expand each expression 198. log 3 3xy 2 z 5 4w 199. log 4 200. log x 2 8 8m 4 (u 2 v) 3 Using log 2 3 1.5850 and log 2 18 4.1699, evaluate the following 1 201. log 2 202. log 6 2 36 203. log 2 81 Using Properties of Logs, rewrite the expression as a single log. 204. 2 log x + 3 log y 4 log z 205. 1 2 log 4 m 206. 5 log f 2 log g 6 log h Solve the following equations 207. log 3 4x + log 3 2 = 3 208. log 2 x + log 2 (x 3) = 2 209. log 3 x log 3 4 = log 3 16 210. log 3 x 2 + log 3 x = log 3 27 211. 2log 3 x log 3 9 = log 3 25 212. log 3 (2x + 3) + log 3 (x 2) = log 3 72 Pre-Calc Parent Functions ~20~ NJCTL.org

Common Logs Class Work Solve for the variable. 213. 7 x = 18 214. 3 x+4 = 27 x 215. 4 b 2 = 8 216. 5 2d 3 = 29 217. 7 n 2 = 3 n 218. 4 t+2 = 5 t 2 Find the approximate value for each 219. log 3 6 220. log 5 17 221. log 6 37 Common Logs Home Work Solve for the variable. 222. 8 x = 21 223. 64 x 1 = 4 2x+5 224. 9 b 6 = 42 225. 19 3d 1 = 40 226. 2 5 n = 7 n 227. 18 t+1 = 32 t 1 Find the approximate value for each 228. log 3 10 229. log 5 20 230. log 6 30 Pre-Calc Parent Functions ~21~ NJCTL.org

e and ln Class Work Solve the following equations 231. e ln x = 6 232. e ln x 4 = 6 233. ln e x+5 = 6x 234. 3 ln e 2x 8 = 4 235. e 2x = 7 236. 3e (x 1) + 9 = 10 237. ln(x + 1) = 7 238. ln(x) + 1 = 7 e and ln Homework Solve the following equations 239. e ln 2x = 6 240. 5e ln x 4 = 6 241. ln e 2x 5 = 6 + x 242. 4 ln e 3x + 9 = 21 243. e 3x+1 = 6 244. 4e (2x+1) + 8 = 10 245. ln(x 1) = 9 246. ln(x) 1 = 9 Pre-Calc Parent Functions ~22~ NJCTL.org

Growth and Decay Class Work Solve the following problems 247. $250 is deposited in an account earning 5% that compounds quarterly, what is the balance in the account after 3 years? 248. A bacteria colony is growing at a continuous rate of 3% per day. If there were 5 grams to start, what is the mass of the colony in 10 days? 249. A bacteria colony is growing at a continuous rate of 4% per day. How long till the colony doubles in size? 250. If a car depreciates at an annual rate of 12% and you paid $30,000 for it, how much is it worth in 5 years? 251. An unknown isotope is measured to have 250 grams on day 1 and 175 grams on day 30. At what rate is the isotope decaying? At what point will there be 100 grams left? 252. An antique watch made in 1752 was worth $180 in 1950; in 2000 it was worth $2200. If the watch s value is appreciating continuously, what would its value be in 2010? 253. A furniture store sells a $3000 living room and doesn t require payment for 2 years. If interest is charged at a 5% daily rate and no money is paid early, how much money is repaid at the end? Pre-Calc Parent Functions ~23~ NJCTL.org

Growth and Decay Homework Solve the following problems 254. $50 is deposited in an account that earns 4% compounds monthly, what is the balance in the account after 4 years? 255. A bacteria colony is growing at a continuous rate of 5% per day. If there were 7 grams to start, what is the mass of the colony in 20 days? 256. A bacteria colony is growing at a continuous rate of 6% per day. How long till the colony doubles in size? 257. If a car depreciates at an annual rate of 10% and you paid $20,000 for it, how much is it worth in 4 years? 258. An unknown isotope is measured to have 200 grams on day 1 and 150 grams on day 30. At what rate is the isotope decaying? At what point will there be 50 grams left? 259. An antique watch made in 1752 was worth $280 in 1940; in 2000 it was worth $3200. If the watch s value is appreciating continuously, what would its value be in 2010? 260. A $9000 credit card bill isn t paid one month, the credit company charges.5% continuously on unpaid amounts. How much is owed 30 days later? (assume no other charges are made) Pre-Calc Parent Functions ~24~ NJCTL.org

Logistic Growth Class Work Scientists measure a wolf population growing at a rate of 3% annually. They calculate the carrying capacity of the region to be 100 members. 261. Write a logistic equation to model this situation. 262. Create a table that shows the pack population over the next 10 years if P 1=30 263. Draw a graph of the equation Logistic Growth Homework A calculus class determines that a rumor spreads around the school at a rate of 15% per hour. The school population is 1600. 264. Write a logistic equation to model this situation. 265. Create a table that shows the number of people who know the rumor over the next 10 hours if the class that starts it has 20 members 266. Draw a graph of the equation Pre-Calc Parent Functions ~25~ NJCTL.org

Trig Functions Class Work Use the appropriate triangle to answer questions 267-274. 267. sin θ = 268. cos θ = 269. tan θ = 270. sin α = 271. cos α = 272. tan α = 273. θ = 274. α = 275. A right triangle has a hypotenuse of 7 and an angle of 40, find the larger leg. 276. A right triangle has legs of 6 and 10 find the smaller acute angle. 277. A right triangle has an angle of 50 and a longer leg of 8, find the hypotenuse. Pre-Calc Parent Functions ~26~ NJCTL.org

Trig Functions Homework Use the appropriate triangle to answer questions 278-285. 278. sin θ = 279. cos θ = 280. tan θ = 281. sin α = 282. cos α = 283. tan α = 284. θ = 285. α = 286. A right triangle has a hypotenuse of 9 and an angle of 60, find the larger leg. 287. A right triangle has legs of 7 and 12 find the smaller acute angle. 288. A right triangle has an angle of 20 and a longer leg of 5, find the hypotenuse. Pre-Calc Parent Functions ~27~ NJCTL.org

Converting Degrees and Radians Class work Convert the following degree measures to radians and radian measures to degrees. 289. 2π 3 290. 35 291. 225 292. π 5 293. 150 294. 14π 9 295. 310 296. 10π 7 297. 270 Converting Degrees and Radians Class work Convert the following degree measures to radians and radian measures to degrees. 298. 5π 3 299. 75 300. 200 301. 4π 5 302. 175 303. 17π 9 304. 350 305. 9π 7 306. 11π 18 Pre-Calc Parent Functions ~28~ NJCTL.org

Graphing Sin, Cos, and Tan Class Work 305. What is the relationship between when a sine max/min value occurs and when a cosine zero occurs? 306. How do the zeros of the cosine and sine graphs relate to a tangent graph? Consider the domain of ( π, π) for sin θ, cos θ, and tan θ 307. Which function(s) is increasing on the entire interval? 308. Which function(s) has a relative max? 309. Which function(s) has a concave down interval followed by a concave up interval? 310. Which function(s) has an undefined value of x on the interval? Graphing Sin, Cos, and Tan Homework 311. What is the relationship between when a cosine max/min value occurs and when a sine zero occurs? 312. How does the tangent function s concavity change between asymptotes? Consider the domain of ( π, π) for sin θ, cos θ, and tan θ 313. Which function(s) is decreasing on the entire interval? 314. Which function(s) has a zero? 315. Which function(s) has a concave up interval followed by a concave down interval? 316. Which function(s) has a relative minimum? Pre-Calc Parent Functions ~29~ NJCTL.org

Positive and Negative Integer Power Functions Class Work For each equation find lim x, lim f(x), lim f(x), and lim x 0 x 0 + x 317. f(x) = 4x 3 318. f(x) = 5x 6 319. f(x) = 1 3 x5 320. f(x) = x 2 321. f(x) = 4x 3 322. f(x) = 5x 6 323. f(x) = 1 3 x 5 324. f(x) = x 2 Pre-Calc Parent Functions ~30~ NJCTL.org

Positive and Negative Integer Power Functions Homework For each equation find lim x lim f(x), lim f(x), and lim x 0 x 0 + x 325. f(x) = 3x 9 326. f(x) = 2x 8 327. f(x) = 1 4 x11 328. f(x) = 6x 20 329. f(x) = 3x 9 330. f(x) = 2x 8 331. f(x) = 1 4 x 11 332. f(x) = 6x 20 Pre-Calc Parent Functions ~31~ NJCTL.org

Rational Power Functions Class Work Choose which function(s) fits the description provided. (A) f(x) = x 1 4 3 (B) f(x) = x (C) f(x) = x 1 7 6 (D) f(x) = x 333. undefined for negative real values 334. lim f(x) = x 335. closest to (10,1) 336. lim x 0 + f(x) = 0 337. lim f(x) = undefined 338. closest to (10, 3) x 0 Rational Power Functions Homework Choose which function(s) fits the description provided. (A) f(x) = x 1 4 3 (B) f(x) = x (C) f(x) = x 1 7 6 (D) f(x) = x 339. Domain is (, ) 340. lim x f(x) = 341. closest to (5,-1.5) 342. lim x 0 f(x) = undefined 343. Range is (, 0] 344. closest to (10,- 1.5) Pre-Calc Parent Functions ~32~ NJCTL.org

Rational Functions Class Work For each of the following functions, name any discontinuities and tell whether they are non-removable or removable. Graph each function. 345. h(x) = 3x2 4x 4 x 2 4 346. g(x) = x 5 x 2 25 347. j(x) = x2 12x+36 x 6 348. m(x) = x 2 9 x 2 6x+9 349. lim f(x) = lim f(x) = 2; f(3) is undefined x 3 + x 3 Pre-Calc Parent Functions ~33~ NJCTL.org

Rational Functions Homework For each of the following functions, name any discontinuities and tell whether they are non-removable or removable. Graph each function. 350. h(x) = x2 4x+4 x 2 4 351. g(x) = x 4 x 2 16 352. j(x) = 2x2 8x 24 x 6 353. m(x) = x 2 49 x 2 +14x+49 354. lim x 5 f(x) = lim f(x) = 1; f( 5) is undefined x 5 + Pre-Calc Parent Functions ~34~ NJCTL.org

Unit Review - Multiple Choice 1. Which equation has an x-intercept of (5,0) and a y-intercept of (0, 5 2 ) a. y + 5 = 5(x 0) 2 b. y 5 = 5(x 0) 2 c. y = 1 (x 5) 2 d. y = 1 (x + 5) 2 2. The equation of a line perpendicular to 2x + 3y = 7 and containing (5,6) is a. 3x 2y = 3 b. y 6 = 2 (x 5) 3 c. 3x 2y = 4 d. y = 2 3 (x 6) 3. A line with no slope and containing (3,8) has equation a. y = 3 b. y = 8 c. x = 3 d. x = 8 4. The vertex of y = 2 x 1 + 7 is a. (2,7) b. ( 2,7) c. ( 1,7) d. (1,7) 5. 4[ 3(2.7) + 0.5] = a. 40 b. 36 c. 32 d. 28 6. The equation that models exponential decay passing through (0,5) and a lim x f(x) = 4 is a. f(x) = 5e x + 4 b. f(x) = 1e x + 4 c. f(x) = 5e x + 4 d. f(x) = 1e x + 4 7. A forest fire spreads continuously, burning 10% more acres every hour. How long will it take for 1000 acres to be on fire after 200 acres are burning? a. 23.026 hours b. 16.094 hours c. 6.932 hours Pre-Calc Parent Functions ~35~ NJCTL.org

d. not enough information 8. log 6 5 = a..116 b..898 c. 1.113 d. 1.308 9. Given 4 x = 10, find x a. 2.5 b..602 c..400 d. 1.661 10. log m =.345 and log n = 1.223, find log 10m2 n 3 a. -1.979 b..651 c. 6.507 d. 8.473 11. Which of the following would not influence the carrying capacity of a logistic growth model a. the population of a town b. the food supply in an ecological preserve c. the rate of spread of the flu d. the area inside a Petri dish 12. The larger leg of a right triangle is 6 and the smallest angle is 20, what is the hypotenuse? a. 6.385 b. 5.638 c. 17.543 d. 14.703 13. How many degrees is 4π 9? a. 160 b. 110 c. 80 d. 62 14. An example of a function that is concave down and then concave up is a. f(x) = sin x on (0, π) b. f(x) = tan x on (0, π) c. f(x) = cos x on (0, π) d. f(x) = sin x on ( π, π) 15. The function that has lim f(x) = and lim x 0 a. f(x) = 3x 3 f(x) = is x 0 + Pre-Calc Parent Functions ~36~ NJCTL.org

b. f(x) = 4x 4 c. f(x) = 3x 3 d. f(x) = 4x 4 16. The function h(x) = 4x2 3x 1 has the following discontinuities 4x 2 1 a. non-removable discontinuity at x = ± 1 2 b. removable discontinuity at x = ± 1 2 c. non-removable discontinuity at x = 1 2 ; removable discontinuity at x = 1 2 d. non-removable discontinuity at x = 1 2 ; removable discontinuity at x = 1 2 Extended Response 1. Consider the function h(x) = f(x) g(x), if f(x) = x2 2x 8 and g(x) = x 2 + 8x + 15 a. Use limit notation to describe the end behavior of h(x) b. Name any discontinuities and whether they are removable or non-removable. c. j(x) = h(x) m(x) and has a removable discontinuity at x = 3,what is m(x)? 2. Entomologists introduce 20 of one variety of insect to a region and determine that the population doubles every 6 hours. a. Write an equation to model this situation. b. What will the population be in 10 hours? Pre-Calc Parent Functions ~37~ NJCTL.org

c. If those same scientists determine that the region can support a maximum of 100,000 of the species, rewrite your equation from part a. 3. A compostable bag breaks down such that only 10% remains in 6 months. a. If the decomposition is continual, at what rate is the bag decomposing? b. How much of the bag remained after 4 months? c. When will there be less than 1% of the bag remaining? 4. A 15 ladder is rated to have no more than a 70 angle and no less than a 40 angle. a. What is maximum rated distance the ladder can be placed from the wall? b. How high up a wall can the ladder reach and be within the acceptable use limits? c. At what base angle should the ladder be placed to reach 10 up the wall? Pre-Calc Parent Functions ~38~ NJCTL.org