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All Textbook Solutions for Intermediate Algebra

In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 308. 5x=110 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 309. 4x=112 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 310. ex=16 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 311. ex=8 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 312. (12)x=6 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 313. (13)x=8 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 314.4ex+1=16 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 316. 6e2x=24 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 316. 6e2x=24 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 317. 2e3x=32 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 318. 14ex=3 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 319. 13ex=2 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 320. ex+1+2=16 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 321. ex1+4=12 In the following exercises, solve each equation. 322. 33x+1=81 In the following exercises, solve each equation. 323. 64x17=216 In the following exercises, solve each equation. 324. ex2e14=e5x In the following exercises, solve each equation. 325. ex2ex=e20 In the following exercises, solve each equation. 326. loga64=2 In the following exercises, solve each equation. 327. loga81=4 In the following exercises, solve each equation. 328. lnx=8 In the following exercises, solve each equation. 329.lnx=9 In the following exercises, solve each equation. 330. log5(3x8)=2 In the following exercises, solve each equation. 331. log4(7x+15)=3 In the following exercises, solve each equation. 332. lne5x=30 In the following exercises, solve each equation. 333. lne6x=18 In the following exercises, solve each equation. 334. 3logx=log125 In the following exercises, solve each equation. 335. 7log3x=log3128 In the following exercises, solve each equation. 336. log6x+log6(x5)=24 In the following exercises, solve each equation. 337. log9x+log9(x4)=12 In the following exercises, solve each equation. 338. log2(x+2)log2(2x+9)=log2x In the following exercises, solve each equation. 339. log6(x+1)log6(4x+10)=log61x In the following exercises, solve for x, giving an exact answer as well as an approximate to three decimal places. 340. 6x=91 In the following exercises, solve for x, giving an exact answer as well as an approximate to three decimal places. 341. (12)x=10 In the following exercises, solve for x, giving an exact answer as well as an approximate to three decimal places. 342. 7ex3=35 In the following exercises, solve for x, giving an exact answer as well as an approximate to three decimal places. 343. 8ex+5=56 In the following exercises, solve. 344. Sung Lee invests $5,000 at age 18. He hopes the investments will be worth $10 000 when he turns 25. If the interest compounds continuously, approximately what rate of growth will he need to achieve his goal? Is that a reasonable expectation?In the following exercises, solve. 345. Alice invests $15,000 at age 30 from the signing bonus of her new job. She hopes the investments will be worth $30,000 when she turns 40. If the interest compounds continuously, approximately what rate of growth will she need to achieve her goal?In the following exercises, solve. 346. Coralee invests $5,000 in an account that compounds interest monthly and earns 7%. How long will it take for her money to double?In the following exercises, solve. 347. Simone invests $8,000 in an account that compounds interest quarterly and earns 5%. How long will it take for his money to double?In the following exercises, solve. 348. Researchers recorded that a certain bacteria population declined from 100,000 to 100 in 24 hours. At this rate of decay, how many bacteria will there be in 16 hours?In the following exercises, solve. 349. Researchers recorded that a certain bacteria population declined from 800,000 to 500,000 in 6 hours after the administration of medication. At this rate of decay, how many bacteria will there be in 24 hours?In the following exercises, solve. 350. A virus takes 6 days to double its original population (A=2A0). How long will it take to triple its population?In the following exercises, solve. 351. A bacteria doubles its original population in 24 hours (A=2A0). How big will its population be in 72 hours?In the following exercises, solve. 352. Carbon-14 is used for archeological carbon dating. Its half-life is 5,730 years. How much of a 100-gram sample of Carbon-14 will be left in 1000 years?In the following exercises, solve. Radioactive technetium-99m is often used in diagnostic medicine as it has a relatively short half-life but lasts long enough to get the needed testing done on the patient. If its half-life is 6 hours, how much of the radioactive material form a 0.5 ml injection will be in the body in 24 hours?Explain the method you would use to solve these equations: 3x+1=81,3x+1=75. Does your method require logarithms for both equations? Why or why not?What is the difference between the equation for exponential growth versus the equation for exponential decay?In the following exercises, for each pair of functions, find (a) (fg)(x),(gf)(x), and (c) (fg)(x). 356. f(x)=7x2 and g(x)=5x+1 In the following exercises, for each pair of functions, find (a) (fg)(x),(gf)(x), and (c) (fg)(x). 357. f(x)=4x and g(x)=x2+3x In the following exercises, evaluate the composition. 358. For functions f(x)=3x2+2 and g(x)=4x3 , find a. (fg)(3) b. (gf)(2) c. (ff)(1)In the following exercises, evaluate the composition. 359. For functions f(x)=2x3+5 and g(x)=3x27, find a. (fg)(1) b. (gf)(2) c. (gg)(1)In the following exercises, for each set of ordered pairs, determine if it represents a function and if so, is the function one-to-one. 360. {(3,5),(24,4),(1,3),(0,2)(1,1),(2,0),(3,1)}In the following exercises, for each set of ordered pairs, determine if it represents a function and if so, is the function one-to-one. 361. {(3,0),(2,2),(1,0),(0,1),(1,2),(2,1),(3,1)}In the following exercises, for each set of ordered pairs, determine if it represents a function and if so, is the function one-to-one. 362. {(3,3)(2,1),(1,1),(0,3)(1,5),(2,4),(3,2)}In the following exercises, for each set of ordered pairs, determine if it represents a function and if so, is the function one-to-one.In the following exercises, for each set of ordered pairs, determine if it represents a function and if so, is the function one-to-one. 364.In the following exercise, find the inverse of the function, Determine the domain and range of the inverse function. 365. {(3,10),(2,5),(1,2),(0,1)}In the following exercise, graph the inverse of the one-to-one function shown. 366.In the following exercises, find the inverse of each function. 367. f(x)=3x+7 and g(x)=x73 In the following exercises, find the inverse of each function. 368. f(x)=2x+9 and g(x)=x+92 In the following exercises, find the inverse of each function. 369. f(x)=6x11 In the following exercises, find the inverse of each function. 370. f(x)=x3+13 In the following exercises, find the inverse of each function. 371. f(x)=1x+5 In the following exercises, find the inverse of each function. 372. f(x)=x15 In the following exercises, graph each of the following functions. 373. f(x)=4x In the following exercises, graph each of the following functions. 374. f(x)=(15)x In the following exercises, graph each of the following functions. 375. g(x)=(0.75)x In the following exercises, graph each of the following functions. 376. g(x)=3x+2 In the following exercises, graph each of the following functions. 377. f(x)=(2.3)x3 In the following exercises, graph each of the following functions. 378. f(x)=ex+5 In the following exercises, graph each of the following functions. 379. f(x)=ex In the following exercises, solve each equation. 380. 35x6=81 In the following exercises, solve each equation. 381. 2x2=16 In the following exercises, solve each equation. 382. 9x=27 In the following exercises, solve each equation. 383. 5x2+2x=15 In the following exercises, solve each equation. 384. e4xe7=e19 In the following exercises, solve each equation. 385. ex2e15=e2x In the following exercises, solve. 386. Felix invested $12,000 in a savings account. If the interest rate is 4% how much will be in the account in 12 years by each method of compounding? a. compound quarterly b. compound monthly c. compound continuously.In the following exercises, solve. 387. Sayed deposits $20,000 in an investment account. What will be the value of his investment in 30 years if the investment is earning 7% per year and is compounded continuously?In the following exercises, solve. 388. A researcher at the Center for Disease Control and Prevention is studying the growth of a bacteria. She starts her experiment with 150 of the bacteria that grows at a rate of 15% per hour. She will check on the bacteria every 24 hours. How many bacteria will he find in 24 hours?In the following exercises, solve. 389. In the last five years the population of the United States has grown at a rate of 0.7% per year to about 318,900,000. If this rate continues, what will be the population in 5 more years?In the following exercises, convert from exponential to logarithmic form. 390. 54=625 In the following exercises, convert from exponential to logarithmic form. 391. 103=11,000 In the following exercises, convert from exponential to logarithmic form. 392. 6315=635 In the following exercises, convert from exponential to logarithmic form. 393. ey=16 In the following exercises, convert each logarithmic equation to exponential form. 394. 7=log2128 In the following exercises, convert each logarithmic equation to exponential form. 395. 5=log100,000 In the following exercises, convert each logarithmic equation to exponential form. 396. 4=lnx In the following exercises, solve for x. 397. logx125=3 In the following exercises, solve for x. 398. log7x=2 In the following exercises, solve for x. 399. log12116=x In the following exercises, find the exact value of each logarithm without using a calculator. 400. log232 In the following exercises, find the exact value of each logarithm without using a calculator. 401. log81 In the following exercises, find the exact value of each logarithm without using a calculator. 402. log319 In the following exercises, graph each logarithmic function. 403. y=log5x In the following exercises, graph each logarithmic function. 404. y=log14x In the following exercises, graph each logarithmic function. 405. y=log0.8x In the following exercises, solve each logarithmic equation. 406. loga36=5 In the following exercises, solve each logarithmic equation. 407. lnx=3 In the following exercises, solve each logarithmic equation. 408. log2(5x7)=3 In the following exercises, solve each logarithmic equation. 409. lne3x=24 In the following exercises, solve each logarithmic equation. 410. log(x221)=2 What is the decibel level of a train whistle with intensity 103 watts per square inch?In the following exercises, use the properties of logarithms to evaluate. 412. a. log71 b. log1212 In the following exercises, use the properties of logarithms to evaluate. 413. a. 5log513 b. log339 In the following exercises, use the properties of logarithms to evaluate. 414. a.10log5 b. log103 In the following exercises, use the properties of logarithms to evaluate. 415. a. eln8 b. lne5 In the following exercises, use the Quotient Property of Logarithms to write each logarithm as a sum of logarithms. Simplify if possible. 416. log4(64xy)In the following exercises, use the Quotient Property of Logarithms to write each logarithm as a sum of logarithms. Simplify if possible. 417. log10,000m In the following exercises, use the Quotient Property of Logarithms to write each logarithm as a sum of logarithms. Simplify if possible. 418. log749y In the following exercises, use the Quotient Property of Logarithms to write each logarithm as a sum of logarithms. Simplify if possible. 419. lne52 In the following exercises, use the Power Property of Logarithms to expand each logarithm. Simplify, if possible. 420. logx9 In the following exercises, use the Power Property of Logarithms to expand each logarithm. Simplify, if possible. 421. log4z7 In the following exercises, use properties of logarithms to write each logarithm as a sum of logarithms. Simplify if possible. 422. log3(4x7y8)In the following exercises, use properties of logarithms to write each logarithm as a sum of logarithms. Simplify if possible. 423. log58a2b6cd3 In the following exercises, use properties of logarithms to write each logarithm as a sum of logarithms. Simplify if possible. 424. ln3x2y2z4 In the following exercises, use properties of logarithms to write each logarithm as a sum of logarithms. Simplify if possible. 425. log67x26y3z53 In the following exercises, use the Properties of Logarithms to condense the logarithm. Simplify if possible. 426. log256log27 In the following exercises, use the Properties of Logarithms to condense the logarithm. Simplify if possible. 427. 3log3x+7log3y In the following exercises, use the Properties of Logarithms to condense the logarithm. Simplify if possible. 428. log5(x216)2log5(x+4)In the following exercises, use the Properties of Logarithms to condense the logarithm. Simplify if possible. 429. 14logy2log(y3)In the following exercises, rounding to three decimal places, approximate each logarithm. 430. log597 In the following exercises, rounding to three decimal places, approximate each logarithm. 431. log316 In the following exercises, solve for x. 432. 3log5x=log5216 In the following exercises, solve for x. 433. log2x+log2(x2)=3 In the following exercises, solve for x. 434. log(x1)log(3x+5)=logx In the following exercises, solve for x. 435. log4(x2)+log4(x+5)=log48 In the following exercises, solve for x. 436. ln(3x2)=ln(x+4)+ln2 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 437. 2x=101 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 438. ex=23 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 439. (13)x=7 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 440. 7ex+3=28 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 441. ex4+8=23 Jerome invests $18,000 at age 17. He hopes the investments will be worth $30,000 when he turns 26. If the interest compounds continuously, approximately what rate of growth will he need to achieve his goal? Is that a reasonable expectation?Elise invests $4500 in an account that compounds interest monthly and earns 6%. How long will it take for her money to double?Researchers recorded that a certain bacteria population grew from 100 to 300 in 8 hours. At this rate of growth, how many bacteria will there be in 24 hours?Mouse populations can double in 8 months (A=2A0) . How long will it take for a mouse population to triple?The half-life of radioactive iodine is 60 days. How much of a 50 mg sample will be left in 40 days?For the functions, f(x)=6x+1 and g(x)=8x3, find (a) (fg)(x), (b) (gf)(x), and (c) (fg)(x).Determine if the following set of ordered pairs represents a function and if so, is the function one-to-one. {(2,2),(1,3),(0,1),(1,2),(2,3)}Determine whether each graph is the graph of a function and if so, is it one-to-one.Graph, on the same coordinate system, the inverse of the one-to-one function shown.Find the inverse of the function f(x)=x59.Graph the function g(x)=2x3.Solve the equation 22x4=64.Solve the equation ex2e4=e3x.Megan invested $21,000 in a savings account. If the interest rate is 5%, how much will be in the account in 8 years by each method of compounding? a. compound quarterly b. compound monthly c. compound continuously.Convert the equation from exponential to logarithmic form: 102=1100.Convert the equation from logarithmic equation to exponential form: 3=log7343 Solve for x: log5x=3 Evaluate log111.Evaluate log4164.Graph the function y=log3x.Solve for x: log(x239)=1 What is the decibel level of a small fan with intensity 108 watts per square inch?Evaluate each. (a) 6log617 (b) log993 In the following exercises, use properties of logarithms to write each expression as sum of logarithms, simplifying if possible. 465. log525ab In the following exercises, use properties of logarithms to write each expression as sum of logarithms, simplifying if possible. 466. lne128 In the following exercises, use properties of logarithms to write each expression as sum of logarithms, simplifying if possible. 467. log25x316y2z74 In the following exercises, use the Properties of Logarithms to condense the logarithm, simplifying if possible. 468. y 5log4x+3log4y In the following exercises, use the Properties of Logarithms to condense the logarithm, simplifying if possible. 469. 16logx3log(x+5)In the following exercises, use the Properties of Logarithms to condense the logarithm, simplifying if possible. 470. Rounding to three decimal places, approximate log473.In the following exercises, use the Properties of Logarithms to condense the logarithm, simplifying if possible. 471. Solve for x: log7(x+2)+log7(x3)=log724 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 472. (15)x=9 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 473. 5ex4=40 In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 474. Jacob invests $14,000 in an account that compounds interest quarterly and earns 4%. How long will it take for his money to double?In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. 475. Researchers recorded that a certain bacteria population grew from 500 to 700 in 5 hours. At this rate of growth, how many bacteria will there be in 20 hours?In the following exercises, solve each exponential equation. Find the exact answer and then approximate it to three decimal places. A certain beetle population can double in 3 months (A=2A0). How long will it take for that beetle population to triple?Use the rectangular coordinate system to find the distance between the points (6,1) and (2,2).Use the rectangular coordinate system to find the distance between the points (5,3) and (3,3).Use the Distance Formula to find the distance between the points (4,5) and (5,7).Use the Distance Formula to find the distance between the points (2,5) and (14,10) .Use the Distance Formula to find the distance between the points (4,5) and (3,4). Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed.Use the Distance Formula to find the distance between the points (2,5) and (3,4). Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed.Use the Midpoint Formula to find the midpoint of the line segments whose endpoints are (3,5) and (5,7) plot the endpoints and the midpoint on a rectangular coordinate system.Use the Midpoint Formula to find the midpoint of the line segments whose endpoints are (2,5) and (6,1) . Plot the endpoints and the midpoint on a rectangular coordinate system.Write the standard form of the equation of the circle with a radius of 6 and center (0,0).Write the standard form of the equation of the circle with a radius of 8 and center (0,0).Write the standard form of the equation of the circle with a radius of 7 and center (2,4).Write the standard form of the equation of the circle with a radius of 9 and center (3,5).Write the standard form of the equation of the circle with center (2,1) that also contains the point (2,2).Write the standard form of the equation of the circle with center (7,1) that also contains the point (1,5).(a) Find the center and radius, then (b) Graph the circle: (x3)2+(y+4)2=4.Find the center and radius, then (b) graph the circle: (x3)2+(y1)2=16.Find the center and radius, then (b) graph the circle: 3x2+3y2=27.Find the center and radius, then (b) graph the circle: 5x2+5y2=125.Find the center and radius, then (b) graph the circle: x2+y2+6x8y+9=0.Find the center and radius, then (b) graph the circle: x2+y2+6x2y+1=0.Find the center and radius, then (b) graph the circle: x2+y22x3=0.Find the center and radius, then (b) graph the circle: x2+y212y+11=0.In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. (2,0) and (5,4)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 2. (4,3) and (2,5)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 3. (4,3) and (8,2)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 4. (7,3) and (8,5)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 5. (1,4) and (2,0)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 6. (1,3) and (5,5)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 7. (1,4) and (6,8)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 8. (8,2) and (7,6)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 9. (3,5) and (0,1)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 10. (1,2) and (3,4)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 11.(3,1) and (1,7)In the following exercises, find the distance between the points. Write the answer in exact form and then find the decimal approximation, rounded to the nearest tenth if needed. 12. (4,5) and (7,4)In the following exercises, find the midpoint of the line segments whose endpoints are given and plot the endpoints and the midpoint on a rectangular coordinate system. 13. (0,5) and (4,3)In the following exercises, find the midpoint of the line segments whose endpoints are given and plot the endpoints and the midpoint on a rectangular coordinate system. 14. (2,6)In the following exercises, find the midpoint of the line segments whose endpoints are given and plot the endpoints and the midpoint on a rectangular coordinate system. 15. (3,1) and (4,2)In the following exercises, find the midpoint of the line segments whose endpoints are given and plot the endpoints and the midpoint on a rectangular coordinate system. 16. (3,3) and (6,1)In the following exercises, write the standard form of the equation of the circle with the given radius and center (0,0). 17. Radius: 7 In the following exercises, write the standard form of the equation of the circle with the given radius and center (0,0). 18. Radius: 9 In the following exercises, write the standard form of the equation of the circle with the given radius and center (0,0). 19. Radius: 2 In the following exercises, write the standard form of the equation of the circle with the given radius and center (0,0). 20. Radius: 5 In the following exercises, write the standard form of the equation of the circle with the given radius and center. 21. Radius: 1, center: (3,5)In the following exercises, write the standard form of the equation of the circle with the given radius and center. 22. Radius: 10, center: (2,6)the following exercises, write the standard form of the equation of the circle with the given radius and center. 23. Radius: 2.5, center: (1.5,3.5)In the following exercises, write the standard form of the equation of the circle with the given radius and center. 24. Radius: 1.5, center: (5.5,6.5)For the following exercises, write the standard form of the equation of the circle with the given center with point on the circle. 25. Center (3,2) with point (3,6)For the following exercises, write the standard form of the equation of the circle with the given center with point on the circle. 26. Center (6,6) with point (2,3)For the following exercises, write the standard form of the equation of the circle with the given center with point on the circle. 27. Center (4,4) with point (2,2)For the following exercises, write the standard form of the equation of the circle with the given center with point on the circle. 28. Center + (5,6) without point (2,3)In the following exercises, (a) find the center and radius, then (b) graph each circle. 29. (x+5)2+(y+3)2=1 In the following exercises, (a) find the center and radius, then (b) graph each circle. 30. (x2)2+(y3)2=9 In the following exercises, (a) find the center and radius, then (b) graph each circle. 31. (x4)2+(y+2)2=16 In the following exercises, (a) find the center and radius, then (b) graph each circle. 32. (x+2)2+(y5)2=4 In the following exercises, (a) find the center and radius, then (b) graph each circle. 33. x2+(y+2)2=25 In the following exercises, (a) find the center and radius, then (b) graph each circle. 34. (x1)2+y2=36 In the following exercises, (a) find the center and radius, then (b) graph each circle. 35. (x1.5)2+(y+2.5)2=0.25 In the following exercises, (a) find the center and radius, then (b) graph each circle. 36. (x1)2+(y3)2=94 In the following exercises, (a) find the center and radius, then (b) graph each circle. 37. x2+y2=64 the following exercises, (a) find the center and radius, then (b) graph each circle. 38. x2+y2=49 In the following exercises, (a) find the center and radius, then (b) graph each circle. 39. 2x2+2y2=8 In the following exercises, (a) find the center and radius, then (b) graph each circle. 40. 6x2+6y2=216 In the following exercises, (a) find the center and radius, then (b) graph each circle. 41. x2+y2+2x+6y+9=0 In the following exercises, (a) find the center and radius, then (b) graph each circle. 42. x2+y26x8y=0 In the following exercises, (a) find the center and radius, then (b) graph each circle. 43. x2+y24x+10y7=0 In the following exercises, (a) find the center and radius, then (b) graph each circle. 44. x2+y2+12x14y+21=0 In the following exercises, (a) find the center and radius, then (b) graph each circle. 45. x2+y2+6y+5=0 In the following exercises, (a) find the center and radius, then (b) graph each circle. 46. x2+y210y=0 In the following exercises, (a) find the center and radius, then (b) graph each circle. 47. x2+y2+4x=0 In the following exercises, (a) find the center and radius, then (b) graph each circle. 48. x2+y214x+13=0 Explain the relationship between the distance formula and the equation of a circle.Is a circle a function? Explain why or why not.In your own words, state the definition of a circle.In your own words, explain the steps you would take to change the general form of the equation of a circle to the standard form.Graph y=x2+5x6 by using properties.Graph y=x2+8x12 by using properties.(a) Write y=2x2+4x+5 in standard form and (b) use properties of standard form to graph the equation.(a) Write y=2x2+8x7 in standard form and (b) use properties of standard form to graph the equation.Graph x=y2 by using properties.Graph x=y2 by using properties.Graph x=y24y+12 by using properties.Graph x=y2+2y3 by using properties.Graph x=3(y1)2+2 using properties.Graph x=2(y3)2+2 using properties.Graph x=4(y+2)2+4 using properties.Graph x=2(y+3)2+2 . using properties.(a) Write x=3y2+y+7 in standard form and (b) use properties of the standard form to graph the equation.(a) Write x=4y216y12 in standard form and (b) use properties of the standard form to graph the equation.Find the equation of the parabolic arch formed in the foundation of the bridge shown, Write the equation in standard form.Find the equation of the parabolic arch formed in the foundation of the bridge shown. Write the equation in standard form.In the following exercises, graph each equation by using properties. 53. y=x2+4x3 In the following exercises, graph each equation by using properties. 54. y=x2+8x15 In the following exercises, graph each equation by using properties. 55. y=6x2+2x1 In the following exercises, graph each equation by using properties. 56. y=8x210x+3 In the following exercises, (a) write the equation in standard form and (b) use properties of the standard form to graph the equation. 57. y=x2+2x4 In the following exercises, (a) write the equation in standard form and (b) use properties of the standard form to graph the equation. 58. y=2x2+4x+6 In the following exercises, (a) write the equation in standard form and (b) use properties of the standard form to graph the equation. 59. y=2x24x5 In the following exercises, (a) write the equation in standard form and (b) use properties of the standard form to graph the equation. 60. y=3x212x+7 In the following exercises, graph each equation by using properties. 61. x=2y2 In the following exercises, graph each equation by using properties. 62. x=3y2 In the following exercises, graph each equation by using properties. 63. x=4y2 In the following exercises, graph each equation by using properties. 64. x=4y2 In the following exercises, graph each equation by using properties. 65. x=y22y+3 In the following exercises, graph each equation by using properties. 66. x=y24y+5 In the following exercises, graph each equation by using properties. 67. x=y2+6y+8 In the following exercises, graph each equation by using properties. 68. x=y24y12 In the following exercises, graph each equation by using properties. 69. x=(y2)2+3 In the following exercises, graph each equation by using properties. 70. x=(y1)2+4 In the following exercises, graph each equation by using properties. 71. x=(y1)2+2 In the following exercises, graph each equation by using properties. 72. x=(y4)2+3 In the following exercises, graph each equation by using properties. 73. x=(y+2)2+1 In the following exercises, graph each equation by using properties. 74. x=(y+1)2+2 In the following exercises, graph each equation by using properties. 75. x=(y+3)2+2 In the following exercises, graph each equation by using properties. 76. x=(y+4)2+3 In the following exercises, graph each equation by using properties. 77. x=3(y2)2+3 In the following exercises, graph each equation by using properties. 78. x=2(y1)2+2 In the following exercises, graph each equation by using properties. 79. x=4(y+1)24 In the following exercises, graph each equation by using properties. 80. x=2(y+4)22 In the following exercises, (a) write the equation in standard form and (b) use properties of the standard form to graph the equation. 81. x=y2+4y5 In the following exercises, (a) write the equation in standard form and (b) use properties of the standard form to graph the equation. 82 x=y2+2y3 In the following exercises, (a) write the equation in standard form and (b) use properties of the standard form to graph the equation. 83. x=2y212y16 In the following exercises, (a) write the equation in standard form and (b) use properties of the standard form to graph the equation. 84. x=3y26y5 In the following exercises, match each graph to one of the following equations: (a) x2+y2=64 (b) x2+y2=49 (c) (x+5)2+(y+2)2=4 (d) (x2)2+(y3)2=9 (e) y=x2+8x15 (f) y=6x2+2x1 In the following exercises, match each graph to one of the following equations: (a) x2+y2=64 (b) x2+y2=49 (c) (x+5)2+(y+2)2=4 (d) (x2)2+(y3)2=9 (e) y=x2+8x15 (f) y=6x2+2x1 In the following exercises, match each graph to one of the following equations: (a) x2+y2=64 (b) x2+y2=49 (c) (x+5)2+(y+2)2=4 (d) (x2)2+(y3)2=9 (e) y=x2+8x15 (f) y=6x2+2x1 In the following exercises, match each graph to one of the following equations: (a) x2+y2=64 (b) x2+y2=49 (c) (x+5)2+(y+2)2=4 (d) (x2)2+(y3)2=9 (e) y=x2+8x15 (f) y=6x2+2x1 In the following exercises, match each graph to one of the following equations: (a) x2+y2=64 (b) x2+y2=49 (c) (x+5)2+(y+2)2=4 (d) (x2)2+(y3)2=9 (e) y=x2+8x15 (f) y=6x2+2x1 In the following exercises, match each graph to one of the following equations: (a) x2+y2=64 (b) x2+y2=49 (c) (x+5)2+(y+2)2=4 (d) (x2)2+(y3)2=9 (e) y=x2+8x15 (f) y=6x2+2x1 ?Write the equation of the parabolic arch formed in the foundation of the bridge shown. Write the equation in standard form.Write the equation of the parabolic arch formed in the foundation of the bridge shown. Write the equation in standard form.Write the equation of the parabolic arch formed in the foundation of the bridge shown. Write the equation in standard form.

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