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11X1 T10 02 geometric series

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Nigel Simmons
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Geometric Series
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term.
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r.
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T r 2 a
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T r 2 a T  3 T2
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T r 2 a T  3 T2 Tn r Tn1
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T  3 T2 Tn r Tn1
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar T  3 T2 Tn r Tn1
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn r Tn1
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32, 
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  a  2, r  4
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  Tn  ar n1 a  2, r  4
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  Tn  ar n1 a  2, r  4  24  n 1
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  Tn  ar n1 a  2, r  4  24  n 1  22  2 n 1  22  2 n2
Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  Tn  ar n1 a  2, r  4  24  n 1  22  2 n 1 Tn  2 2 n1  22  2 n2
ii  If T2  7 and T4  49, find r
ii  If T2  7 and T4  49, find r ar  7
ii  If T2  7 and T4  49, find r ar  7 ar 3  49
ii  If T2  7 and T4  49, find r ar  7 ar 3  49 r2  7
ii  If T2  7 and T4  49, find r ar  7 ar 3  49 r2  7 r 7
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. ar 3  49 r2  7 r 7
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. ar 3  49 a  1, r  4 r2  7 r 7
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 r 7
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500 n  1 log 4  log 500
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500 n  1 log 4  log 500 n  1  4.48 n  5.48
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500 n  1 log 4  log 500 n  1  4.48 n  5.48 T6  1024, is the first term  500
ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500 n  1 log 4  log 500 n  1  4.48 n  5.48 T6  1024, is the first term  500 Exercise 6E; 1be, 2cf, 3ad, 5ac, 6c, 8bd, 9ac, 10ac, 15, 17, 18ab, 20a

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11 x1 t01 01 algebra & indices (2014)
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12 x1 t01 02 differentiating logs (2013)
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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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X2 t02 02 multiple roots (2013)
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X2 t02 01 factorising complex expressions (2013)
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11 x1 t16 07 approximations (2013)
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11 x1 t16 06 derivative times function (2013)
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11 x1 t16 05 volumes (2013)
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11 x1 t16 04 areas (2013)
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11 x1 t16 03 indefinite integral (2013)
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11 x1 t16 02 definite integral (2013)
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11X1 T10 02 geometric series

  • 2. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term.
  • 3. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r.
  • 4. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T r 2 a
  • 5. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T r 2 a T  3 T2
  • 6. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T r 2 a T  3 T2 Tn r Tn1
  • 7. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T  3 T2 Tn r Tn1
  • 8. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar T  3 T2 Tn r Tn1
  • 9. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn r Tn1
  • 10. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1
  • 11. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32, 
  • 12. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  a  2, r  4
  • 13. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  Tn  ar n1 a  2, r  4
  • 14. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  Tn  ar n1 a  2, r  4  24  n 1
  • 15. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  Tn  ar n1 a  2, r  4  24  n 1  22  2 n 1  22  2 n2
  • 16. Geometric Series An geometric series is a sequence of numbers in which each term after the first is found by multiplying a constant amount to the previous term. The constant amount is called the common ratio, symbolised, r. T T1  a r 2 a T2  ar  T3 T3  ar 2 T2 Tn  ar n1 Tn r Tn1 e.g .i  Find r and the general term of 2, 8, 32,  Tn  ar n1 a  2, r  4  24  n 1  22  2 n 1 Tn  2 2 n1  22  2 n2
  • 17. ii  If T2  7 and T4  49, find r
  • 18. ii  If T2  7 and T4  49, find r ar  7
  • 19. ii  If T2  7 and T4  49, find r ar  7 ar 3  49
  • 20. ii  If T2  7 and T4  49, find r ar  7 ar 3  49 r2  7
  • 21. ii  If T2  7 and T4  49, find r ar  7 ar 3  49 r2  7 r 7
  • 22. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. ar 3  49 r2  7 r 7
  • 23. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. ar 3  49 a  1, r  4 r2  7 r 7
  • 24. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 r 7
  • 25. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7
  • 26. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500
  • 27. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500
  • 28. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500 n  1 log 4  log 500
  • 29. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500 n  1 log 4  log 500 n  1  4.48 n  5.48
  • 30. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500 n  1 log 4  log 500 n  1  4.48 n  5.48 T6  1024, is the first term  500
  • 31. ii  If T2  7 and T4  49, find r (iii) find the first term of 1, 4, 16, … to ar  7 be greater than 500. Tn  14  n 1 ar 3  49 a  1, r  4 r2  7 Tn  500 r 7 4 n1  500 log 4 n1  log 500 n  1 log 4  log 500 n  1  4.48 n  5.48 T6  1024, is the first term  500 Exercise 6E; 1be, 2cf, 3ad, 5ac, 6c, 8bd, 9ac, 10ac, 15, 17, 18ab, 20a