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12X1 T09 04 permutations II (2010)

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Nigel Simmons
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Permutations Not All Different Case 3: Ordered Sets of n Objects,
Permutations Not All Different Case 3: Ordered Sets of n Objects, (i.e. some of the objects are the same)
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, (i.e. some of the objects are the same)
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different (i.e. some of the objects are the same) A B B A
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different (i.e. some of the objects are the same) A B B A 2! 2
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects all different A B C A C B B A C B C A C A B C B A
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects all different A B C A C B B A C B C A C A B C B A 3! 6
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects all different 2 same A B C A A B A C B A B A B A C B A A B C A C A B C B A 3! 6 3
2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects all different 2 same 3 same A B C A A B A A A A C B A B A B A C B A A B C A C A B C B A 3! 6 3 1
4 objects
4 objects all different A B C D C B A D A B D C C B D A A C B D C A B D A C D B C A D B A D B C C D B A A D C B C D A B B A C D D A C B B A D C D A B C B C A D D C A B B C D A D C B A B D A C D B A C B D A B D B A B
4 objects all different A B C D C B A D A B D C C B D A A C B D C A B D A C D B C A D B A D B C C D B A A D C B C D A B B A C D D A C B B A D C D A B C B C A D D C A B B C D A D C B A B D A C D B A C B D A B D B A B 4! 24
4 objects all different 2 same A B C D C B A D A A B C A B D C C B D A A A C B A C B D C A B D A B A C A C D B C A D B A B C A A D B C C D B A A C A B A D C B C D A B A C B A B A C D D A C B B A A C B A D C D A B C B A C A B C A D D C A B B C A A B C D A D C B A C A A B B D A C D B A C C A B A B D A B D B A B C B A A 4! 24 12
4 objects all different 2 same 3 same A B C D C B A D A A B C A A A B A B D C C B D A A A C B A A B A A C B D C A B D A B A C A C D B C A D B A B A A A B C A A D B C C D B A A C A B B A A A A D C B C D A B A C B A 4 B A C D D A C B B A A C B A D C D A B C B A C A B C A D D C A B B C A A B C D A D C B A C A A B B D A C D B A C C A B A B D A B D B A B C B A A 4! 24 12
4 objects all different 2 same 3 same A B C D C B A D A A B C A A A B A B D C C B D A A A C B A A B A A C B D C A B D A B A C A C D B C A D B A B A A A B C A A D B C C D B A A C A B B A A A A D C B C D A B A C B A 4 B A C D D A C B B A A C B A D C D A B C B A C A B C A D D C A B B C A A B C D A D C B A C A A B B D A C D B A C C A B A 4 same B D A B D B A B C B A A A A A A 4! 24 12 1
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are;
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; n! Number of Arrangements  x!
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x!
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ?
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ? 11! Words  2!3!
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ? 11! Words  2!3! 2! for the two O' s
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ? 11! Words  2!3! 2! for the two O' s 3! for the three N' s
If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ? 11! Words  2!3!  3326400 2! for the two O' s 3! for the three N' s
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible?
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions?
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2!
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2! Number of ways of placing the vowels
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2! Number of ways of Number of ways of placing the vowels placing the consonants
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2! Number of ways of  1440 Number of ways of placing the vowels placing the consonants
2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2! Number of ways of  1440 Number of ways of placing the vowels placing the consonants Exercise 10F; odd

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12 x1 t01 01 log laws (2013)
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X2 t02 04 forming polynomials (2013)
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X2 t02 03 roots & coefficients (2013)
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11 x1 t16 05 volumes (2013)
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12X1 T09 04 permutations II (2010)

  • 1. Permutations Not All Different Case 3: Ordered Sets of n Objects,
  • 2. Permutations Not All Different Case 3: Ordered Sets of n Objects, (i.e. some of the objects are the same)
  • 3. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, (i.e. some of the objects are the same)
  • 4. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different (i.e. some of the objects are the same) A B B A
  • 5. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different (i.e. some of the objects are the same) A B B A 2! 2
  • 6. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1
  • 7. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects
  • 8. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects all different A B C A C B B A C B C A C A B C B A
  • 9. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects all different A B C A C B B A C B C A C A B C B A 3! 6
  • 10. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects all different 2 same A B C A A B A C B A B A B A C B A A B C A C A B C B A 3! 6 3
  • 11. 2 objects Permutations Not All Different Case 3: Ordered Sets of n Objects, all different 2 same (i.e. some of the objects are the same) A B A A B A 2! 2 1 3 objects all different 2 same 3 same A B C A A B A A A A C B A B A B A C B A A B C A C A B C B A 3! 6 3 1
  • 13. 4 objects all different A B C D C B A D A B D C C B D A A C B D C A B D A C D B C A D B A D B C C D B A A D C B C D A B B A C D D A C B B A D C D A B C B C A D D C A B B C D A D C B A B D A C D B A C B D A B D B A B
  • 14. 4 objects all different A B C D C B A D A B D C C B D A A C B D C A B D A C D B C A D B A D B C C D B A A D C B C D A B B A C D D A C B B A D C D A B C B C A D D C A B B C D A D C B A B D A C D B A C B D A B D B A B 4! 24
  • 15. 4 objects all different 2 same A B C D C B A D A A B C A B D C C B D A A A C B A C B D C A B D A B A C A C D B C A D B A B C A A D B C C D B A A C A B A D C B C D A B A C B A B A C D D A C B B A A C B A D C D A B C B A C A B C A D D C A B B C A A B C D A D C B A C A A B B D A C D B A C C A B A B D A B D B A B C B A A 4! 24 12
  • 16. 4 objects all different 2 same 3 same A B C D C B A D A A B C A A A B A B D C C B D A A A C B A A B A A C B D C A B D A B A C A C D B C A D B A B A A A B C A A D B C C D B A A C A B B A A A A D C B C D A B A C B A 4 B A C D D A C B B A A C B A D C D A B C B A C A B C A D D C A B B C A A B C D A D C B A C A A B B D A C D B A C C A B A B D A B D B A B C B A A 4! 24 12
  • 17. 4 objects all different 2 same 3 same A B C D C B A D A A B C A A A B A B D C C B D A A A C B A A B A A C B D C A B D A B A C A C D B C A D B A B A A A B C A A D B C C D B A A C A B B A A A A D C B C D A B A C B A 4 B A C D D A C B B A A C B A D C D A B C B A C A B C A D D C A B B C A A B C D A D C B A C A A B B D A C D B A C C A B A 4 same B D A B D B A B C B A A A A A A 4! 24 12 1
  • 18. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are;
  • 19. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; n! Number of Arrangements  x!
  • 20. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x!
  • 21. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects
  • 22. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ?
  • 23. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ? 11! Words  2!3!
  • 24. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ? 11! Words  2!3! 2! for the two O' s
  • 25. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ? 11! Words  2!3! 2! for the two O' s 3! for the three N' s
  • 26. If we arrange n objects in a line, of which x are alike, the number of ways we could arrange them are; ways of arranging n! n objects Number of Arrangements  x! ways of arranging the like objects e.g. How many different words can be formed using all of the letters in the word CONNAUGHTON ? 11! Words  2!3!  3326400 2! for the two O' s 3! for the three N' s
  • 27. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible?
  • 28. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!
  • 29. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440
  • 30. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions?
  • 31. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2!
  • 32. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2! Number of ways of placing the vowels
  • 33. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2! Number of ways of Number of ways of placing the vowels placing the consonants
  • 34. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2! Number of ways of  1440 Number of ways of placing the vowels placing the consonants
  • 35. 2001 Extension 1 HSC Q2c) The letters A, E, I, O and U are vowels (i) How many arrangements of the letters in the word ALGEBRAIC are possible? 9! Words  2!  181440 (ii) How many arrangements of the letters in the word ALGEBRAIC are possible if the vowels must occupy the 2nd, 3rd, 5th, and 8th positions? 4! Words   5! 2! Number of ways of  1440 Number of ways of placing the vowels placing the consonants Exercise 10F; odd