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Why do I get two different answers for this counting problem?


Combinatorics question about english letters (with consonants and vowels)Permutation and CombinationsWords counting problemTwo different answers for combinatorics question - which is correct?Two different answers - cubes and colorsHow many Strings of 6 letters contain: Exactly one Vowel, At least one Vowel?Ways to arrange a word so that no vowel is isolated between two consonantsEx 2., Combinatorics, Harris - Eleven letter sequences from the 26-letter alphabet containing exactly three vowels -String of letters and ways to have at least one vowelHow many different arrangements using 5 letters of the word INTEGRAL, if no two vowels are adjacent?













2












$begingroup$


Suppose that we consider English alphabets so we have 26 letters which 5 of them are vowels. I want to find all three letters sequences that contain at least one vowel.



My first approach is $26^3-21^3=8315$ which is the number of all three lettres sequences minus the number of three letter sequences which do not contain vowels.



Second approach: at least one vowel means one vowel or two vowels or three vowels so the answer is $(5cdot21^2)+(5^2cdot21)+5^3=2855$.



Why are these two answers different?










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    2












    $begingroup$


    Suppose that we consider English alphabets so we have 26 letters which 5 of them are vowels. I want to find all three letters sequences that contain at least one vowel.



    My first approach is $26^3-21^3=8315$ which is the number of all three lettres sequences minus the number of three letter sequences which do not contain vowels.



    Second approach: at least one vowel means one vowel or two vowels or three vowels so the answer is $(5cdot21^2)+(5^2cdot21)+5^3=2855$.



    Why are these two answers different?










    share|cite|improve this question







    New contributor




    Student is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
    Check out our Code of Conduct.







    $endgroup$














      2












      2








      2





      $begingroup$


      Suppose that we consider English alphabets so we have 26 letters which 5 of them are vowels. I want to find all three letters sequences that contain at least one vowel.



      My first approach is $26^3-21^3=8315$ which is the number of all three lettres sequences minus the number of three letter sequences which do not contain vowels.



      Second approach: at least one vowel means one vowel or two vowels or three vowels so the answer is $(5cdot21^2)+(5^2cdot21)+5^3=2855$.



      Why are these two answers different?










      share|cite|improve this question







      New contributor




      Student is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.







      $endgroup$




      Suppose that we consider English alphabets so we have 26 letters which 5 of them are vowels. I want to find all three letters sequences that contain at least one vowel.



      My first approach is $26^3-21^3=8315$ which is the number of all three lettres sequences minus the number of three letter sequences which do not contain vowels.



      Second approach: at least one vowel means one vowel or two vowels or three vowels so the answer is $(5cdot21^2)+(5^2cdot21)+5^3=2855$.



      Why are these two answers different?







      combinatorics discrete-mathematics






      share|cite|improve this question







      New contributor




      Student is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.











      share|cite|improve this question







      New contributor




      Student is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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      share|cite|improve this question






      New contributor




      Student is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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      asked 1 hour ago









      StudentStudent

      153




      153




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      New contributor





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          3 Answers
          3






          active

          oldest

          votes


















          3












          $begingroup$

          Take the number of all three letter words ($26^3$) and subtract from it the number that have only consonants ($21^3$).



          Your second method does not address all possible sequences of vowels, such as vowel-consonant-vowel or vowel-vowel-consonant or consonant-vowel-vowel.






          share|cite|improve this answer











          $endgroup$












          • $begingroup$
            That is my solution 1. I need to know why solution 2 does not work.
            $endgroup$
            – Student
            1 hour ago










          • $begingroup$
            I get it. Thanks so much
            $endgroup$
            – Student
            1 hour ago


















          2












          $begingroup$

          It is worth noting that to count properly with the second approach, you would have to write $$3 cdot 5 cdot 21^2 + 3 cdot 5^2 cdot 21 + 5^3 = 8315.$$ The first term counts all cases where there is exactly one vowel, and there are three positions for the location of this vowel. The second term counts all cases where there are exactly two vowels, and there are three positions for the location of the sole consonant. The third term counts all cases where there are exactly three vowels, but we do not multiply by three because all three letters are of the same type. You only have to consider the ordering of the types of letters (vowel vs. consonant) when there is more than one type of letter used.






          share|cite|improve this answer









          $endgroup$




















            1












            $begingroup$

            Refer to Binomial Expansion



            $$(21+5)^3=21^3+tbinom 31cdotp 21^2cdotp5+tbinom 32cdotp21cdotp 5^2+5^3$$



            so$$26^3-21^3= (3cdot21^2cdotp 5)+(3cdot21cdotp 5^2)+5^3$$



            The binomial coefficients count the ways to select elements from a set.



            In your case, that is positions to place the vowels in the word.



            There are $3cdot21^2cdotp 5$ ways to select 1 vowels and two consonants where the vowel is in the first, second, or third place. And so on.






            share|cite|improve this answer









            $endgroup$













              Your Answer





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              3 Answers
              3






              active

              oldest

              votes








              3 Answers
              3






              active

              oldest

              votes









              active

              oldest

              votes






              active

              oldest

              votes









              3












              $begingroup$

              Take the number of all three letter words ($26^3$) and subtract from it the number that have only consonants ($21^3$).



              Your second method does not address all possible sequences of vowels, such as vowel-consonant-vowel or vowel-vowel-consonant or consonant-vowel-vowel.






              share|cite|improve this answer











              $endgroup$












              • $begingroup$
                That is my solution 1. I need to know why solution 2 does not work.
                $endgroup$
                – Student
                1 hour ago










              • $begingroup$
                I get it. Thanks so much
                $endgroup$
                – Student
                1 hour ago















              3












              $begingroup$

              Take the number of all three letter words ($26^3$) and subtract from it the number that have only consonants ($21^3$).



              Your second method does not address all possible sequences of vowels, such as vowel-consonant-vowel or vowel-vowel-consonant or consonant-vowel-vowel.






              share|cite|improve this answer











              $endgroup$












              • $begingroup$
                That is my solution 1. I need to know why solution 2 does not work.
                $endgroup$
                – Student
                1 hour ago










              • $begingroup$
                I get it. Thanks so much
                $endgroup$
                – Student
                1 hour ago













              3












              3








              3





              $begingroup$

              Take the number of all three letter words ($26^3$) and subtract from it the number that have only consonants ($21^3$).



              Your second method does not address all possible sequences of vowels, such as vowel-consonant-vowel or vowel-vowel-consonant or consonant-vowel-vowel.






              share|cite|improve this answer











              $endgroup$



              Take the number of all three letter words ($26^3$) and subtract from it the number that have only consonants ($21^3$).



              Your second method does not address all possible sequences of vowels, such as vowel-consonant-vowel or vowel-vowel-consonant or consonant-vowel-vowel.







              share|cite|improve this answer














              share|cite|improve this answer



              share|cite|improve this answer








              edited 1 hour ago

























              answered 1 hour ago









              David G. StorkDavid G. Stork

              11.6k41534




              11.6k41534











              • $begingroup$
                That is my solution 1. I need to know why solution 2 does not work.
                $endgroup$
                – Student
                1 hour ago










              • $begingroup$
                I get it. Thanks so much
                $endgroup$
                – Student
                1 hour ago
















              • $begingroup$
                That is my solution 1. I need to know why solution 2 does not work.
                $endgroup$
                – Student
                1 hour ago










              • $begingroup$
                I get it. Thanks so much
                $endgroup$
                – Student
                1 hour ago















              $begingroup$
              That is my solution 1. I need to know why solution 2 does not work.
              $endgroup$
              – Student
              1 hour ago




              $begingroup$
              That is my solution 1. I need to know why solution 2 does not work.
              $endgroup$
              – Student
              1 hour ago












              $begingroup$
              I get it. Thanks so much
              $endgroup$
              – Student
              1 hour ago




              $begingroup$
              I get it. Thanks so much
              $endgroup$
              – Student
              1 hour ago











              2












              $begingroup$

              It is worth noting that to count properly with the second approach, you would have to write $$3 cdot 5 cdot 21^2 + 3 cdot 5^2 cdot 21 + 5^3 = 8315.$$ The first term counts all cases where there is exactly one vowel, and there are three positions for the location of this vowel. The second term counts all cases where there are exactly two vowels, and there are three positions for the location of the sole consonant. The third term counts all cases where there are exactly three vowels, but we do not multiply by three because all three letters are of the same type. You only have to consider the ordering of the types of letters (vowel vs. consonant) when there is more than one type of letter used.






              share|cite|improve this answer









              $endgroup$

















                2












                $begingroup$

                It is worth noting that to count properly with the second approach, you would have to write $$3 cdot 5 cdot 21^2 + 3 cdot 5^2 cdot 21 + 5^3 = 8315.$$ The first term counts all cases where there is exactly one vowel, and there are three positions for the location of this vowel. The second term counts all cases where there are exactly two vowels, and there are three positions for the location of the sole consonant. The third term counts all cases where there are exactly three vowels, but we do not multiply by three because all three letters are of the same type. You only have to consider the ordering of the types of letters (vowel vs. consonant) when there is more than one type of letter used.






                share|cite|improve this answer









                $endgroup$















                  2












                  2








                  2





                  $begingroup$

                  It is worth noting that to count properly with the second approach, you would have to write $$3 cdot 5 cdot 21^2 + 3 cdot 5^2 cdot 21 + 5^3 = 8315.$$ The first term counts all cases where there is exactly one vowel, and there are three positions for the location of this vowel. The second term counts all cases where there are exactly two vowels, and there are three positions for the location of the sole consonant. The third term counts all cases where there are exactly three vowels, but we do not multiply by three because all three letters are of the same type. You only have to consider the ordering of the types of letters (vowel vs. consonant) when there is more than one type of letter used.






                  share|cite|improve this answer









                  $endgroup$



                  It is worth noting that to count properly with the second approach, you would have to write $$3 cdot 5 cdot 21^2 + 3 cdot 5^2 cdot 21 + 5^3 = 8315.$$ The first term counts all cases where there is exactly one vowel, and there are three positions for the location of this vowel. The second term counts all cases where there are exactly two vowels, and there are three positions for the location of the sole consonant. The third term counts all cases where there are exactly three vowels, but we do not multiply by three because all three letters are of the same type. You only have to consider the ordering of the types of letters (vowel vs. consonant) when there is more than one type of letter used.







                  share|cite|improve this answer












                  share|cite|improve this answer



                  share|cite|improve this answer










                  answered 1 hour ago









                  heropupheropup

                  64.9k764103




                  64.9k764103





















                      1












                      $begingroup$

                      Refer to Binomial Expansion



                      $$(21+5)^3=21^3+tbinom 31cdotp 21^2cdotp5+tbinom 32cdotp21cdotp 5^2+5^3$$



                      so$$26^3-21^3= (3cdot21^2cdotp 5)+(3cdot21cdotp 5^2)+5^3$$



                      The binomial coefficients count the ways to select elements from a set.



                      In your case, that is positions to place the vowels in the word.



                      There are $3cdot21^2cdotp 5$ ways to select 1 vowels and two consonants where the vowel is in the first, second, or third place. And so on.






                      share|cite|improve this answer









                      $endgroup$

















                        1












                        $begingroup$

                        Refer to Binomial Expansion



                        $$(21+5)^3=21^3+tbinom 31cdotp 21^2cdotp5+tbinom 32cdotp21cdotp 5^2+5^3$$



                        so$$26^3-21^3= (3cdot21^2cdotp 5)+(3cdot21cdotp 5^2)+5^3$$



                        The binomial coefficients count the ways to select elements from a set.



                        In your case, that is positions to place the vowels in the word.



                        There are $3cdot21^2cdotp 5$ ways to select 1 vowels and two consonants where the vowel is in the first, second, or third place. And so on.






                        share|cite|improve this answer









                        $endgroup$















                          1












                          1








                          1





                          $begingroup$

                          Refer to Binomial Expansion



                          $$(21+5)^3=21^3+tbinom 31cdotp 21^2cdotp5+tbinom 32cdotp21cdotp 5^2+5^3$$



                          so$$26^3-21^3= (3cdot21^2cdotp 5)+(3cdot21cdotp 5^2)+5^3$$



                          The binomial coefficients count the ways to select elements from a set.



                          In your case, that is positions to place the vowels in the word.



                          There are $3cdot21^2cdotp 5$ ways to select 1 vowels and two consonants where the vowel is in the first, second, or third place. And so on.






                          share|cite|improve this answer









                          $endgroup$



                          Refer to Binomial Expansion



                          $$(21+5)^3=21^3+tbinom 31cdotp 21^2cdotp5+tbinom 32cdotp21cdotp 5^2+5^3$$



                          so$$26^3-21^3= (3cdot21^2cdotp 5)+(3cdot21cdotp 5^2)+5^3$$



                          The binomial coefficients count the ways to select elements from a set.



                          In your case, that is positions to place the vowels in the word.



                          There are $3cdot21^2cdotp 5$ ways to select 1 vowels and two consonants where the vowel is in the first, second, or third place. And so on.







                          share|cite|improve this answer












                          share|cite|improve this answer



                          share|cite|improve this answer










                          answered 1 hour ago









                          Graham KempGraham Kemp

                          87.6k43578




                          87.6k43578




















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