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RATIONAL

RATIONAL. WORD PROBLEMS. TO SOLVE RATIONAL WORD PROBLEMS. TO SOLVE RATIONAL WORD PROBLEMS. 1. Set up the unknowns in one variable. TO SOLVE RATIONAL WORD PROBLEMS. 1. Set up the unknowns in one variable. 2. Set up an equation for the situation. TO SOLVE RATIONAL WORD PROBLEMS.

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RATIONAL

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  1. RATIONAL WORD PROBLEMS

  2. TO SOLVE RATIONAL WORD PROBLEMS

  3. TO SOLVE RATIONAL WORD PROBLEMS 1. Set up the unknowns in one variable.

  4. TO SOLVE RATIONAL WORD PROBLEMS 1. Set up the unknowns in one variable. 2. Set up an equation for the situation.

  5. TO SOLVE RATIONAL WORD PROBLEMS 1. Set up the unknowns in one variable. 2. Set up an equation for the situation. 3. Multiply by the common denominator to clear out fractions.

  6. TO SOLVE RATIONAL WORD PROBLEMS 1. Set up the unknowns in one variable. 2. Set up an equation for the situation. 3. Multiply by the common denominator to clear out fractions. 4. Solve the remaining equation for the variable.

  7. TO SOLVE RATIONAL WORD PROBLEMS 1. Set up the unknowns in one variable. 2. Set up an equation for the situation. 3. Multiply by the common denominator to clear out fractions. 4. Solve the remaining equation for the variable. 5. State final answers in real world terms.

  8. Most tunnels are drilled using tunnel-boring machines that begin at both ends of the tunnel. Suppose a new underwater tunnel is being built and one tunnel-boring machine alone can finish the tunnel in 4 years. A different type of machine can tunnel to the other side in 3 years. If both machines start at opposite ends and work at the same time, when will the tunnel be finished?

  9. Let x = number of years together

  10. Let x = number of years together Equation:

  11. Let x = number of years together Equation:

  12. Solve equation: multiply by common denominator (4)(3)(x).

  13. Solve equation: multiply by common denominator (4)(3)(x).

  14. Solve equation: multiply by common denominator (4)(3)(x).

  15. Solve equation: multiply by common denominator (4)(3)(x).

  16. Solve equation: multiply by common denominator (4)(3)(x).

  17. If both machines work toward each other it will take 1.7 years to finish the tunnel.

  18. If both machines work toward each other it will take 1.7 years to finish the tunnel.

  19. A car travels 300 km in the same time that a freight train travels 200 km. The speed of the car is 20 km/hr more than the speed of the train. Find the speed of the car and the speed of the train.

  20. A car travels 300 km in the same time that a freight train travels 200 km. The speed of the car is 20 km/hr more than the speed of the train. Find the speed of the car and the speed of the train. Let x = speed of train Let x + 20 = speed of car

  21. A car travels 300 km in thesame timethat a freight train travels 200 km. The speed of the car is 20 km/hr more than the speed of the train. Find the speed of the car and the speed of the train. Let x = speed of train Let x + 20 = speed of car

  22. Use the formula d = rt. Solve for “t”.

  23. Use the formula d = rt. Solve for “t”. t = d/r

  24. Use the formula d = rt. Solve for “t”. t = d/r

  25. Use the formula d = rt. Solve for “t”. t = d/r

  26. Use the formula d = rt. Solve for “t”. t = d/r

  27. Solve: multiply by the common denominator (x + 20)(x).

  28. Solve: multiply by the common denominator (x + 20)(x).

  29. Solve: multiply by the common denominator (x + 20)(x).

  30. Solve: multiply by the common denominator (x + 20)(x).

  31. Solve: multiply by the common denominator (x + 20)(x).

  32. Speed of train = x = 40 km/hr

  33. Speed of train = x = 40 km/hr Speed of car = x + 20 = 60 km/hr

  34. Speed of train = x = 40 km/hr Speed of car = x + 20 = 60 km/hr

  35. One electronic reader can read a deck of punched cards in half the time of another reader. Together they can read the deck in 8 minutes. How long would it take each reader alone to read the deck?

  36. One electronic reader can read a deck of punched cards in half the time of another reader. Together they can read the deck in 8 minutes. How long would it take each reader alone to read the deck? Let x = first reader time

  37. One electronic reader can read a deck of punched cards in half the time of another reader. Together they can read the deck in 8 minutes. How long would it take each reader alone to read the deck? Let x = first reader time Let 2x = second reader time

  38. One electronic reader can read a deck of punched cards in half the time of another reader. Together they can read the deck in 8 minutes. How long would it take each reader alone to read the deck? Let x = first reader time Let 2x = second reader time

  39. Solve: multiply by common denominator (x)(8)

  40. Solve: multiply by common denominator (x)(8)

  41. Solve: multiply by common denominator (x)(8)

  42. Solve: multiply by common denominator (x)(8) First reader = x = 12 minutes Second reader = 2x = 24 minutes

  43. One pipe can fill a tank in 6 hours while another can empty it in 2 hours. How long will it take to empty the full tank if both pipes are open at once?

  44. One pipe can fill a tank in 6 hours while another can empty it in 2 hours. How long will it take to empty the full tank if both pipes are open at once? Let x = time to empty full tank

  45. One pipe can fill a tank in 6 hours while another can empty it in 2 hours. How long will it take to empty the full tank if both pipes are open at once? Let x = time to empty full tank Part empty - Part fill = Total empty

  46. One pipe can fill a tank in 6 hours while another can empty it in 2 hours. How long will it take to empty the full tank if both pipes are open at once? Let x = time to empty full tank Part empty - Part fill = Total empty

  47. Solve: multiply by the common denominator (x)(6).

  48. Solve: multiply by the common denominator (x)(6).

  49. Solve: multiply by the common denominator (x)(6).

  50. Solve: multiply by the common denominator (x)(6).

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