Expression 1: "y" equals negative StartFraction, sin ( pi * "x" * 3 Superscript, left bracket, 0...3 cubed , right bracket , Baseline ) / 3 Superscript, left bracket, 0...3 cubed , right bracket , Baseline left brace, negative 1 less than "x" less than 1 , right brace Over pi , EndFraction Has graph. To audio trace, press ALT+T.y=−sin(π*x*30...33)/30...33−1<x<1π
1
Expression 2: "y" equals StartFraction, sin ( pi * "x" * 3 Superscript, left bracket, 0...3 cubed , right bracket , Baseline ) / 3 Superscript, left bracket, 0...3 cubed , right bracket , Baseline left brace, negative 1 less than "x" less than 1 , right brace Over pi , EndFraction Has graph. To audio trace, press ALT+T.y=sin(π*x*30...33)/30...33−1<x<1π
2
Expression 3: "x" equals negative StartFraction, sin ( pi * "y" * 3 Superscript, left bracket, 0...3 cubed , right bracket , Baseline ) / 3 Superscript, left bracket, 0...3 cubed , right bracket , Baseline left brace, negative 1 less than "y" less than 1 , right brace Over pi , EndFraction Has graph. To audio trace, press ALT+T.x=−sin(π*y*30...33)/30...33−1<y<1π
3
Expression 4: "x" equals StartFraction, sin ( pi * "y" * 3 Superscript, left bracket, 0...3 cubed , right bracket , Baseline ) / 3 Superscript, left bracket, 0...3 cubed , right bracket , Baseline left brace, negative 1 less than "y" less than 1 , right brace Over pi , EndFraction Has graph. To audio trace, press ALT+T.x=sin(π*y*30...33)/30...33−1<y<1π
