CB0009-02 Kosch, J. - Kinetic Architecture PREVIEW

Page 1

JOHN KOSCH

KINETIC ARCHITECTURE FOR CONCERT BAND I NST RUMENT AT IO N: 8

Fl ut e

1

Mall ets

5

Clar inet i n Bb 1

5

Clar inet i n Bb 2 /3

1

Percus sion 1:

2

Bass Clarinet

Snare Drum

4

Alt o Sax

Shaker

2

Tenor Sax

1

Bari tone Sax

2

Bass oon

2

Percus sion 2: Tam-t am Tom-tom

4

Horn in F

3

Trumpet in Bb 1

6

Trumpet in Bb 2/3

2

Trombone 1

4

Trombone 2 /3

4

Tuba

Bass Drum


se

qu ire s pu ch

P e Y as

C r O

L

S re A

RU

lu

le ga

PE


A BOUT : Kosch’ s composi t ional pr owes s s hi nes i n t hi s medi um- e asy work f or band! Wit h i ts f ocus on st ruct ural and t emporal int egrit y, Ki neti c Archit ect ure is bol d and dri vi ng whi le remaini ng grounded. FROM THE COMPOSER: Kinet i c Archi t ecture i s a concept t hrough which buildi ngs ar e designed to all ow part s of the st ruct ure to move, wit hout reducing overal l st ruct ural int egrit y. The pulse i n t his piece of t en swi tches f rom 4 to 2, and event ually from 4 t o 3. However, t he piece' s mai n mot i fs ar e l argel y unaff ect ed. Like the bui ldi ngs f or

P e Y

which the piece i s named, t he parts of t he musi cal st ructure move bet ween t ime si gnatures wi thout reducing st ruct ural int egrit y.

Scan t o l et t he compos er

know t hat you are pl aying

PE

Second edit i on, July 2 019

le ga

Addi ti onal par ts are avai l able f or

purchase f rom t he publi sher onli ne.

© Copyri ght

pu

t his composer!

lu

Firs t print ing, December 201 8

Scan t o l earn more about

se

RU

thei r pi ece!

qu ire s

S re A

L

ch

as

C r O

DURATI ON: 6' 1 7"

2 018 " TUX Peopl e' s Mus ic" All Ri ght s Reserved


se

qu ire s pu ch

P e Y as

C r O

L

S re A

RU

lu

le ga

PE


Kinetic Architecture for Concert Band

Transposed Score

Bass Clarinet

  

 

Bassoon

    

Horn in F

   

Trumpet in B  1

  

Tuba

    

le ga

Trombone 2/3

    

      

ch

L

  

qu ire s

se

Trombone 1

    

lu

PE

  

  

Trumpet in B  2/3

Mallets

  

RU

S re A

C r O

Baritone Sax

                                                                                       

Tenor Sax

                                                           

 

Alto Sax

P e Y

Clarinet in B  2/3

  

  

         

     

     

 

    

      



 

     

   

 

   

   

 

   

   

 

as

Clarinet in B  1

5

 = 144      

pu

Flute

John Kosch 2015

                                                              Snare Drum

Percussion 1 (Snare Drum, Shaker)



Percussion 2 (Tam-Tam, Tom-Tom, Bass Drum)



1

2

 Bass Drum

  

3

      

   

4

© Copyright 2018 "TUX People's Music" All Rights Reserved Tuxpeoplesmusic.com CB0009-2015-02

5

  

6

   

  

7


Kinetic Architecture

2

13  

8

Fl.

 

   

 B  Cl. 1



 

    

B  Cl. 2/3



 

    

B. Cl.





A. Sx.

     

 

    

 

 

 

  

  

 

 

P e Y



B  Tpt. 1



B  Tpt. 2/3





Tuba

Mlts.

 

   

 

   

   

 

  

 

       

   

 

  

 

    

     

    

   

   

   

   

 

 



  

 

 

 

  

    

 

     

      



   

   



 

as

  

     

 

         

  

 

  

 

         

         

Perc. 2

   

CB0009-2015-02

Perc. 1

8

le ga

Tbn. 2/3

  

PE

Tbn. 1

S re A

Hn.

   

 

    

ch

   

 

RU

Bsn.

 

C r O

 

    

pu

     

L

B. Sx.

qu ire s



se



lu

T. Sx.

   

9

 



  

 

   

10

11

    

12

   

       

     

13

14


Kinetic Architecture

    

     

15

Fl.

 



  



3





 

 

 

 



 











B  Cl. 2/3



B. Cl.



A. Sx.

                                                

T. Sx.



    



B  Tpt. 1



B  Tpt. 2/3



 



 



 

   

 



 

    



 

   

 

 

    

  







Tbn. 2/3

Tuba

Mlts.

  



        

 

lu

    

 

  

se

RU

le ga

Tbn. 1

 

   



   

 

  





 



 







   

 

   

  

  

 

 



 





 





  







  







 

  









  





S re A

 

as

PE

Hn.



ch

         



C r O

     

 



pu

     

 



L

Bsn.

     

 

qu ire s

B. Sx.

     

P e Y

B  Cl. 1

 

                                                   

Perc. 1

 

     

     

Perc. 2

 

 

15

 

16

 

     

 

    



 

 

17

 

18

            

19

  

20




Kinetic Architecture

4

      

      

            

      

      

            

       

      

       

     

      

      

          

       

     

      

       

      

       

C r O

21

             

      

      

                        

      

        

          

      

                       

     

                        

      

     

B  Tpt. 1

             

     

      

B  Tpt. 2/3

             

     

      

Tbn. 1

          

     

     

PE

Hn.

                 

 

      

       

      

 

     

     

       

Tuba

    

        

      

          

Mlts.

   

le ga

          

Tbn. 2/3

     

L

Bsn.

                           

                                        

   

    





      

              

      

      

            



      

      

            



     

      

            

 

       

      

            



       

      

              

 

     

qu ire s

B. Sx.

  

S re A

T. Sx.

se

A. Sx.

     

 

lu

B. Cl.

RU

B  Cl. 2/3

P e Y

B  Cl. 1

 

as

      

ch

      

pu

Fl.

            

               



 

Perc. 1

  

                             

                                

Perc. 2

    

    

    

21

22

25

26

 

23

    

24

 

 

27

 

  

28




Kinetic Architecture

29

   

   

   

 

 

   

         

   

 

 

   

   

   

 

 

   

            

       

   

   

       

       

       

   

   

       

       

      

    

         

     

   

 

   

   

 

   

  



       

      

     

   

   

Bsn.

        

     

   

  

Hn.

        

B  Tpt. 1

      

B  Tpt. 2/3

       

Tbn. 1

       

Tuba

Mlts.

    

 

L

 

 

se

lu

Perc. 1

     

Perc. 2

     

29

                



    



     





     



 

 

     

 

    

   

  

           

qu ire s

le ga

Tbn. 2/3

        

S re A

PE

B. Sx.

RU

T. Sx.

P e Y

A. Sx.

 

as

B. Cl.

 

ch

B  Cl. 2/3

   

C r O

B  Cl. 1

        

pu

Fl.

5

  

     

     



     

     



     

    

  

   

   

   

 

 

 

   

30

31

32

33

34

35

36


Kinetic Architecture

6

37

Bsn.

 



     



    



 

    

 

    

 

    

 

    

    



B  Tpt. 1



B  Tpt. 2/3



      

  

    

   

    



 

    

 



 

    

le ga

  

   







       

        

               

                              

     

       

      

     

     

PE

Tbn. 2/3

    

 

     

P e Y

     



Hn.

Tbn. 1

 

     

   

as

B. Sx.

     

S re A

T. Sx.

     

       

        



      

      

    

     

   

   

lu

A. Sx.

   

ch



C r O

B. Cl.

pu



L

B  Cl. 2/3

qu ire s



se

B  Cl. 1

RU

Fl.

45

      

Tuba

 

Mlts.

 

Perc. 1

Perc. 2

37

38

39

40

41

42

43

44

45

46

47

   

   

   

       


Kinetic Architecture

   

   

    

   

    



   



       

       

    



   

 

 

   

   

B  Cl. 1



   

 

 

   

   

B  Cl. 2/3



       

   

   

       

B. Cl.





       



       

          

      

 B. Sx.

     

 

    



  

Tuba

Mlts.

 

       

 

  

   

   

   

   

    

   

        



        



   

 

    



   



 

    



   

 

        



        



 

    

    



  

   

le ga

Tbn. 2/3

  

      



PE

Tbn. 1

   

       

    

L

B  Tpt. 2/3

       

       

qu ire s



se

B  Tpt. 1

 

lu



RU

Hn.

S re A

  

    

     

 Bsn.

as

  

ch





 

   

 

C r O

T. Sx.

  

pu

A. Sx.

   

P e Y

 

   

Fl.

53 

   

         

48

7

     

   

   

   

    

  

 

           

  

   

            

    

             

Perc. 1

                      

Perc. 2

    

48

49

50

51

52

53

  

54

   

55

  

56


Kinetic Architecture

8

     

   

 

    

   

  

     

  

 

     



  

      

 





   

  

Bsn.

Hn.

B  Tpt. 1

  

     

     

    

    

 

    

     



 

  

     

   

   

Tuba

Mlts.

  

       

 

 











    

     

     

    

le ga

 

 

  

Tbn. 2/3

  

     

Tbn. 1



PE

B  Tpt. 2/3

 

RU

B. Sx.

     



P e Y

  



 

 

as

T. Sx.

      

  

    



   

 

 

 

  





 

 



 

 





 

 

 

 

Perc. 1

     

    



Perc. 2

        

     



59

60

61

62

63

64

65

66

57

58

ch

A. Sx.



 

C r O





pu

B. Cl.

L





qu ire s

B  Cl. 2/3

S re A

se

B  Cl. 1



lu

Fl.

59  = 120

      

57


Kinetic Architecture

9

67 Fl.

      

   

   

   

   

   

   

  

B  Cl. 1



    

   

   

   

   

   

   

  

B  Cl. 2/3



    

   

   

   

   

   

   

  

 

B. Cl.



A. Sx.

   

  

 

 

  

    

  

 

    

  

 



B  Tpt. 2/3



   

Tuba

      

 

Mlts.

      

  

    

  

  

    

  

  

    

  

  

   

le ga

PE Tbn. 2/3

           

Tbn. 1

qu ire s

B  Tpt. 1

se



  

lu

Hn.

L

S re A

  

RU

Bsn.

as

  

pu

B. Sx.



C r O

 T. Sx.

  

P e Y

 

 

ch

   

  

   

  

 

Perc. 1

Perc. 2

67

68

69

70

71

72

73

74

75

76


Kinetic Architecture

10

77 Fl.

accel.

 



 

 



 

84  = 144









 

  



B  Cl. 2/3



 

B. Cl.



A. Sx.

  



 

 

 



 



 



  



 

 

  

B  Tpt. 1



B  Tpt. 2/3



         



 



Tuba

 

Mlts.

  

 

 



le ga

  

Tbn. 2/3

PE

Tbn. 1

 



 

      



 



 



 



 

 

 

 

 

 

      

 

qu ire s



 

S re A

Hn.

L



lu

Bsn.

 

RU

B. Sx.



ch



C r O

 

pu





se

T. Sx.

P e Y



as

B  Cl. 1

 



          

 

  

Perc. 1

    

   

   

Perc. 2

77

78

79

80

81

82

83

84

85


Kinetic Architecture

B  Cl. 1





B  Cl. 2/3





B. Cl.



A. Sx.

T. Sx.



       

  

           

     

       

           

     

B  Tpt. 2/3



Mlts.

 

Perc. 1

Perc. 2

           

le ga

 

  

           

  

Tuba

PE

  

S re A



se

B  Tpt. 1

             

 

     

         



      

       



     

       

    

     

    

     

      



 

     

     

 

       

     

    

        

 

 

      

L

       

C r O

   

     

     



Tbn. 2/3

Hn.

Tbn. 1

      

      

lu

Bsn.

  

              

  

RU

B. Sx.

  

     

P e Y

as

         

ch



qu ire s

Fl.

  

pu

86

11

       

      

      

                      

       





      



       



    

      

 

    

       



     

       

                

86

87

88

89

90

91

92



 

 


Kinetic Architecture

12

93

B  Cl. 1

  

B  Cl. 2/3

  

B. Cl.

  

A. Sx.

     

      



 

      



 

      



      

   



   



   



   



            

B  Tpt. 1

         

B  Tpt. 2/3

            

Tbn. 1

          

      



      



        



          

 

PE

   

 



 



as

   

RU

Hn.



   

ch

 

      

 

C r O

 

pu

   

L

   

P e Y

                                                                                

     

    



       

    



        

     



     

   



   



   



qu ire s

Bsn.

 

 

S re A

B. Sx.



se

T. Sx.

      

      



      



     



lu

Fl.

             

Tuba

    

Mlts.

                                                      

Tbn. 2/3

le ga

          

 

 

      

 

Perc. 1

    

        

         

            



     

Perc. 2

   

   

    

93

     

94

  

95

   

96

  

97

    

98

99

100


Kinetic Architecture

B  Cl. 1



 

  



B  Cl. 2/3



 

  



B. Cl.



A. Sx.

T. Sx.



            



  

    

  



  

     

     

 

 

  

  





        



     



B  Tpt. 1



 

  



B  Tpt. 2/3



    

Tuba

Mlts.

Perc. 1

Perc. 2

              

 



   

  

  

  



 

101

102

    

   

  

 

  



 

        

   

   

  

   

 

   

  

 

  



 

    

   

  

    

 

 

  

  

 

  



 

 

   

    

 

   

     

    

   

    

 

   

    

    

   

   

 

   

 

 

   

   

  

 

  



  

        

   

   

  

   

 

   

    

 

  



    

   

     

 

   

    



   

     

 

   

   

  

   

            

  



     

                      

 

  

se





          

        

le ga

Tbn. 2/3



            

PE

Tbn. 1





RU

Hn.

   

qu ire s

            

 

L

  

  

                      

S re A

    

lu

Bsn.

   

       

 B. Sx.

    

C r O

Fl.



P e Y



as

  

ch

           

pu

101

13

  

103

  

 

 

          

  

  

104

   

105

   

106

 

 

 

To shaker

       

   

107

 

Add tom-tom

 

 

108


Kinetic Architecture

14

109 Fl.

117

     







       

    

      

    

  







 

B  Cl. 2/3

B. Cl.

 

  

 

 



 

  





  

 

  

T. Sx.

 









B  Tpt. 1







 







 







 





Tuba

 

Mlts.

 

       





    



               

    

        

                 

   

    

       

le ga

Tbn. 2/3

        

 

se

 

lu

    

RU

  

PE

Tbn. 1





B  Tpt. 2/3

    



 

 

pu

    



L

Hn.



   

qu ire s

Bsn.

 

S re A

B. Sx.

      

C r O



P e Y

ch

A. Sx.

  

 

as

B  Cl. 1

    

   

Shaker

Perc. 1

            Tom-Tom

Perc. 2

109

110

111

112

113

114

115

116

 

  

117

   

118

  

119


Kinetic Architecture

125

120

 

    



      



     

     

     

    



    



     

T. Sx.



  



  



  

B. Sx.

  



  

 

  

     



  

 

  

  

     

Tuba

 

Mlts.

 

   







C r O 

  



  





 

  



  



  



  

  

  

  

 







    

    

 







  

  

 

  



  

  



  

    

  



  



  



  



  



122

  

Perc. 2

121

                         

120



 

  



  



  

  



    

  

Perc. 1

  



  



  

  



L

le ga

Tbn. 2/3



   

qu ire s



S re A

PE

Tbn. 1

se





     

      

lu

B  Tpt. 2/3



RU





P e Y

A. Sx.

as



ch

B. Cl.

B  Tpt. 1

      



     

B  Cl. 2/3



      



Hn.



B  Cl. 1

Bsn.

pu

Fl.

15

 

  

123

124



  

  

125

126



  

  

      

  

  



127

128

  

  

129

130


Kinetic Architecture

16 131

Fl.

133 

 

 

  

       

    

   

         

    

 

  

    

  

     

 

   

    

 

    

     

B. Cl.





      

    

  

       

    

  

       

    

  

 

  

    

  



 

B  Tpt. 2/3



  

  

   



  

  

   

  

  

Tuba

 



Mlts.

 

  

  

   

Perc. 2



 

131

 

 

        



     

 

  

 

    



 

    

  

     

  

    

  

     

  





        

  

  

  

       

 

        

 

     

     

   

  

          

   

  

 

 

  

        

 

     

  

 

   



 

  

Snare Drum

To snare drum

Perc. 1

 

le ga

PE     

 

     

 

        

RU



  

 



Tbn. 2/3

 



B  Tpt. 1

Tbn. 1

L

Hn.

qu ire s

Bsn.

S re A

B. Sx.

se

T. Sx.

lu

A. Sx.

P e Y



as

B  Cl. 2/3

  

ch

     

C r O



pu

B  Cl. 1



 



  



  



  

  



 



  



  

 

132

133

134

135

136

137

138

139

140


Kinetic Architecture

      

      

     

     

       

     



B. Cl.



A. Sx.

T. Sx.



B  Tpt. 2/3

     

       

      

 

 

  



Tuba

Mlts.

 

  

 

  



    

      



 

       

         

 

Perc. 1

       

Perc. 2

 

   

      

141

     

    

    

142

 

    

143

      

      

     

      

      

 

  

 

   





    



 

       

      

      

144

              

     

   

              

     

      

le ga

Tbn. 2/3

      

     

L

    

PE

Tbn. 1

      

      

qu ire s

B  Tpt. 1

      

      

S re A

Hn.

     

se

Bsn.

     

lu

B. Sx.

      

 

   

145

as

B  Cl. 2/3

     

ch



     

C r O

B  Cl. 1

P e Y

     

RU

Fl.

          

pu

141

17

              

146

 

   

147

       

148


Kinetic Architecture

18

149 Fl.

 

 

  

 

B  Cl. 1



         

    

   

 

B  Cl. 2/3



         

    

   

 

B. Cl.



 

 

A. Sx.

T. Sx.



   

   

  

  



  

   

 

 

  

 

  

  

 

   

  

 

 

  

PE

    

   

 

 

Tuba

  

Mlts.

                     

Perc. 1

Perc. 2

 

 

149

  

 

le ga 

  

  

  

 

 

    

Tbn. 2/3

 

150

151

   

 

152

     

     

     

    

   

  

  



  

  

 

  

  

 

 

    

 

153

 

   

            

 

 

L

B  Tpt. 2/3

 

  

qu ire s



   

S re A

B  Tpt. 1

se



 

as

 

ch

   

  

P e Y

 

 

   

C r O

 

 

pu

   

Hn.

Tbn. 1

 

 

lu

Bsn.

 

 

RU

B. Sx.

   

     

 

 

 

   

 

   

  

    

 

156

  

 

  

 

     

      

155

 

     

   

 

  

 

   



154

  

  

  

 

157

158


Kinetic Architecture

     

159

Fl.

  

 

  

  

  

  

19

165  

   



  

  

   



A. Sx.

    

T. Sx.



    

 

     

 

  

B  Tpt. 1



B  Tpt. 2/3



Tuba

Mlts.

Perc. 1



 



   



  

 



   

 

 

     



  

 

  

 

 

   

  

 



 

   

  

 

   

  

  

   

 

 

  

 

 

   

  

    

  

 

  

  

    

 

 

          



  

   

  

 

   

     

     

   

 

  

  

  

  

  

   

 

  

   



    





   



  



 

   



  

    





  

  

 



   

 

 

  

  

  

      



  

  

 



    

  

 



   



 



  

 

  

 



  

  

  

   

  

     





qu ire s

 

    

 

le ga

Tbn. 2/3

  

    

PE

Tbn. 1



S re A



   

se

Hn.

lu

Bsn.

RU

B. Sx.



P e Y

 

B. Cl.

 

as

     



ch

 

B  Cl. 2/3

C r O

     

pu

 



L

    

B  Cl. 1

  

   

 

      

     

  Add tam-tam

Perc. 2

  

 

159

160



 

161

162





163

164

   

165

  

166

  

  

167

168


Kinetic Architecture

 rit.     

 

B  Cl. 1



B  Cl. 2/3



B. Cl.



A. Sx.

  

             



 

 

  

 



 

 

  

 



 

 

   

 

  



 

   

    

 

  





 

   

   

 

   

  

 B  Tpt. 2/3

Tbn. 1



  



  

     

   

   



Tuba

  

Mlts.

 

Perc. 1

 

   

   

 

  

   

 

 

  

  

   

   

  

   

  

   

 

  

 

le ga

Tbn. 2/3

  

   

PE

   



L



    

   

        

qu ire s

  



S re A

B  Tpt. 1

   

se

Hn.

    

lu

Bsn.

RU

B. Sx.





 





    

          

 

 

  



   

 

C r O

   

 

 

 

pu

T. Sx.

   

169

   

170

171

  

172

  



 

 

   

 

  

  



 

 





 

  

 



 

        

   

 

  

 

  

 

 

   

  



 

173

174

175

  

 

  

 

  

   

Tam-Tam

Perc. 2



   

 



P e Y

Fl.

as

169

ch

20

 

176 177 178


15 USD

MEDIUM EASY

CB0009-02

se

qu ire s pu ch

P e Y as

C r O

L

S re A

RU

lu

le ga

PE


Turn static files into dynamic content formats.

Create a flipbook
Issuu converts static files into: digital portfolios, online yearbooks, online catalogs, digital photo albums and more. Sign up and create your flipbook.