Expression 15: "y" minus StartFraction, "L" "s" Over "b" , EndFraction equals "b" left parenthesis, "x" minus "L" "s" , right parenthesis left brace, 0 less than "x" less than "L" , right bracey−Lsb=bx−Ls0<x<L
15
T' left parenthesis, 0 , StartFraction, "L" "s" Over "b" , EndFraction minus "b" "L" "s" , right parenthesis0,Lsb−bLs
Label:
16
T' left parenthesis, "L" , StartFraction, "L" "s" Over "b" , EndFraction plus "b" "L" minus "b" "L" "s" , right parenthesisL,Lsb+bL−bLs
Label:
17
Expression 18: "y" equals StartFraction, "L" "s" Over "b" , EndFraction left brace, 0 less than "x" less than "L" , right bracey=Lsb0<x<L
18
Expression 19: "a" equals StartFraction, "d" Over 2 pi , EndFractiona=d2π
equals=
0.0 4 7 1 0 9 8 6 3 1 5 5 20.0471098631552
19
Expression 20: "r" equals "a"r=a
00
domain \theta Minimum:
less than or equal to theta less than or equal to≤θ≤
2 pi2π
domain \theta Maximum:
equals=
0.0 4 7 1 0 9 8 6 3 1 5 5 20.0471098631552
20
Expression 21: left parenthesis, "L" minus "x" , right parenthesis squared plus "y" squared equals "a" squaredL−x2+y2=a2
21
Expression 22: "x" equals "d" "y" left brace, 0 less than "x" less than "L" , right bracex=dy0<x<L
22
Expression 23: "L" minus "x" equals "d" "y" left brace, 0 less than "x" less than "L" , right braceL−x=dy0<x<L
23
B: "L" times left parenthesis, StartFraction, "d" Over "b" , EndFraction "s" , StartFraction, "s" Over "b" , EndFraction , right parenthesisL·dbs,sb
Label:
24
Hidden Label: left parenthesis, "L" StartFraction, "d" Over "b" , EndFraction "s" , negative 2 plus "a" , right parenthesisLdbs,−2+a
Label
25
B: "L" times left parenthesis, 1 minus StartFraction, "d" Over "b" , EndFraction "s" , StartFraction, "s" Over "b" , EndFraction , right parenthesisL·1−dbs,sb
Label:
26
Hidden Label: left parenthesis, "L" minus "L" StartFraction, "d" Over "b" , EndFraction "s" , negative 2 minus "a" , right parenthesisL−Ldbs,−2−a
Label
27
Expression 28: "y" equals negative 2 plus "a" left brace, 0 less than "x" less than "L" , right bracey=−2+a0<x<L
28
Expression 29: "y" equals negative 2 minus "a" left brace, 0 less than "x" less than "L" , right bracey=−2−a0<x<L