Annotation of OpenXM/doc/compalg/appgr.tex, Revision 1.1
1.1 ! noro 1: \chapter{�$B%0%l%V%J4pDl$N1~MQ�(B}
! 2:
! 3: �$B%0%l%V%J4pDl$O>C5nK!0J30$K$b$5$^$6$^$J1~MQ$r;}$D�(B. �$BK\@a$G$O�(B, �$B$=$l$i$N$$�(B
! 4: �$B$/$D$+$K$D$$$F2r@b$9$k�(B.
! 5:
! 6: \begin{nt}
! 7: �$B0J2<$G�(B, �$B<!$N$h$&$J5-K!$rMQ$$$k�(B. \\
! 8: $K$ : �$BBN�(B.\\
! 9: $X$ = $\{x_1,\cdots,x_n\}$ : �$BITDj85�(B\\
! 10: $R$ : $K[X]$\\
! 11: $T$ : $R$ �$B$N9`A4BN�(B\\
! 12: $HT_<(f)$ : $f$ �$B$N�(B $<$ �$B$K4X$9$kF,9`�(B.\\
! 13: $HC_<(f)$ : $f$ �$B$N�(B $<$ �$B$K4X$9$kF,78?t�(B.\\
! 14: $GB_<(S)$ : $S$ �$B$N�(B $<$ �$B$K4X$9$kHoLs%0%l%V%J4pDl�(B.\\
! 15: $NF_<(f,G)$ : $f$ �$B$N�(B $G$ �$B$K4X$9$k@55,7A$N0l$D�(B. $G$ �$B$,%0%l%V%J4pDl$J$i$P0l0UE*�(B
! 16: �$B$KDj$^$k�(B.
! 17: \end{nt}
! 18:
! 19: \section{�$B%$%G%"%k$K4X$9$k1i;;�(B}
! 20:
! 21: \begin{pr}(�$B%$%G%"%k$NAjEy�(B)\\
! 22: �$B%$%G%"%k�(B $I, J \subset R$ �$B$K4X$7�(B
! 23: $I = J \Leftrightarrow GB(I) = GB(J).$
! 24: \end{pr}
! 25:
! 26: \begin{pr} (�$B%$%G%"%k$rK!$H$9$k9gF1�(B, �$B%a%s%P%7%C%W�(B)\\
! 27: �$B%$%G%"%k�(B $I$, $f, g\in R$ �$B$K4X$7�(B
! 28: $f \equiv g \bmod I \Leftrightarrow NF(f,GB(I)) = NF(g,GB(I)).$
! 29: �$BFC$K�(B
! 30: $f \in I \Leftrightarrow NF(f,GB(I)) = 0.$
! 31: \end{pr}
! 32:
! 33: \begin{pr}(�$B<+L@$J%$%G%"%k�(B)\\
! 34: �$B%$%G%"%k�(B $I \subset R$ �$B$K4X$7�(B
! 35: $I = R \Leftrightarrow GB(I) = \{1\}.$
! 36: \end{pr}
! 37:
! 38: \begin{pr}(elimination �$B%$%G%"%k�(B)\\
! 39: $I$ �$B$r%$%G%"%k$H$9$k�(B.
! 40: $X = (X \setminus U) \cup U$ �$B$H$7�(B, �$B$3$NJ,3d$K$h$j�(B
! 41: �$B$9$Y$F$N�(B $u \in T(U)$, �$B$9$Y$F$N�(B $x \in T(X \setminus U)$ �$B$KBP$7�(B $u < x$ �$B$J$k�(B
! 42: order $<$ �$B$rMQ$$$k$H�(B,
! 43: $GB(I \cap K[U]) = GB(I) \cap K[U]$
! 44: \end{pr}
! 45: \proof
! 46: $f \in J=I \cap K[U]$ �$B$H$9$k�(B. $f \in I$ �$B$h$j$"$k�(B $g \in GB(I)$ �$B$,B8:_$7$F�(B
! 47: $HT(g) \mid HT(f)$. $HT(f) \in T(U)$�$B$h$j�(B $HT(g) \in T(U)$. �$B$3$3$G�(B, $<$
! 48: �$B$N@-<A$h$j�(B, $HT(g) \in T(U)$ �$B$J$i$P�(B $g \in K[U]$. �$B$h$C$F�(B $g \in GB(I) \cap
! 49: K[U]$ �$B$G�(B, $GB(I) \cap K[U]$ �$B$O�(B $J$ �$B$N%0%l%V%J4pDl�(B. \qed
! 50:
! 51: \begin{pr} (�$B%$%G%"%k$N8r$o$j�(B)
! 52: $I = Id(f_1,\cdots,f_l)$, $J = Id(g_1,\cdots,g_m)$ �$B$H$9$k$H�(B,
! 53: $I\cap J = (yIR[y] + (1-y)JR[y])\cap R$
! 54: \end{pr}
! 55: \proof $f \in I\cap J$ �$B$H$9$k$H�(B, $f = yf+(1-y)f \in (yI + (1-y)J)\cap R$.
! 56: �$B5U$K�(B $f=yg + (1-y)h$ ($g \in IR[y], h \in JR[y]$) �$B$H$7�(B, $f \in R$
! 57: �$B$H$9$k�(B. �$B$3$N;~�(B, $y=0$ �$B$rBeF~$7$F�(B, $f = h|_{y=0} \in J$. $y=1$ �$B$r�(B
! 58: �$BBeF~$7$F�(B, $f=g|_{y=1} \in I$ �$B$h$j�(B OK. \qed
! 59:
! 60: \begin{co}
! 61: \label{intersect}
! 62: $I=Id(f_1,\cdots,f_m)$, $J=Id(g_1,\cdots,g_l)$ �$B$KBP$7�(B
! 63: $GB(I\cap J) = GB(\{yf_1,\cdots,yf_m,(1-y)g_1,\cdots,(1-y)g_l\}) \cap R$
! 64: �$B$K$h$j�(B $I\cap J$ �$B$,7W;;$G$-$k�(B. (�$B:8JU$O�(B $X < y$ �$B$J$k�(B
! 65: elimination order �$B$G7W;;$9$k�(B. )
! 66: \end{co}
! 67:
! 68: \begin{df} (�$B%$%G%"%k>&�(B)
! 69: �$B%$%G%"%k�(B $I$, $R$ �$B$NItJ,=89g�(B $S$ �$B$KBP$7�(B, �$B%$%G%"%k>&�(B $I:S$ �$B$r�(B
! 70: $$I:S = \{f \in R \mid fS \subset I\}$$
! 71: �$B$GDj5A$9$k�(B. $J=Id(S)$ �$B$H$9$l$P�(B, $I:S = I:J$ �$B$G�(B,
! 72: $J=Id(f_1,\cdots,f_m)$ �$B$J$i$P�(B,
! 73: $$I:S = \bigcap_{i=1}^m I:Id(f_i)$$
! 74: \end{df}
! 75:
! 76: \begin{pr}
! 77: $I:Id(f) = {1\over f}(I \cap Id(f))$
! 78: \end{pr}
! 79: \proof $g \in I:Id(f)$ �$B$J$i$P�(B $gf \in I$ �$B$h$j�(B $gf \in I \cap Id(f)$.
! 80: �$B$h$C$F�(B, $g \in {1 \over f}(I \cap Id(f))$.\\
! 81: �$B5U$K�(B, $g \in {1\over f}(I \cap Id(f))$ �$B$J$i$P�(B $gf \in I \cap Id(f)$ �$B$h$j�(B
! 82: $g \in I:Id(f)$. \qed
! 83:
! 84: \begin{co}
! 85: $I \cap Id(f)$ �$B$N@8@.85$,5a$^$l$P�(B, �$B$=$l$i$O�(B $f$ �$B$r0x;R$K;}$D$N$G�(B, �$B$=$l�(B
! 86: �$B$>$l�(B $f$ �$B$G3d$k$3$H$K$h$j�(B $I:Id(f)$ �$B$,5a$^$k�(B. �$B0lHL$N>l9g�(B $I:S$ �$B$O$=$l�(B
! 87: �$B$i$N8r$o$j$H$J$k$,�(B, $I \cap Id(f)$ �$B$r4^$a$F%$%G%"%k$N8r$o$j$N7W;;$O7O�(B
! 88: \ref{intersect} �$B$K$h$j7W;;$G$-$k$N$G�(B, �$B%$%G%"%k>&$b7W;;$G$-$k$3$H$K�(B
! 89: �$B$J$k�(B.
! 90: \end{co}
! 91:
! 92: \begin{df} (saturation)\\
! 93: $I$ �$B$r%$%G%"%k�(B, $f\in R$ �$B$H$9$l$P�(B, $I:f^i$ �$B$O%$%G%"%k$NA}BgNs$@$,$i�(B, �$B$"�(B
! 94: �$B$k�(B $s \in \N$ �$B$,B8:_$7$F�(B
! 95: $$i\ge s \Rightarrow I:f^i = I:f^s$$
! 96: �$B$,@.$jN)$D�(B. �$B$3$N$H$-�(B
! 97: $$I:f^\infty = I:f^s$$
! 98: �$B$HDj5A$7�(B, $I$ �$B$N�(B $f$ �$B$K4X$9$k�(B saturation �$B$H8F$V�(B.
! 99: \end{df}
! 100:
! 101: \begin{pr}
! 102: $I$ �$B$r%$%G%"%k�(B, $f \in R$ �$B$KBP$7�(B,
! 103: $$I:f^\infty = (IR[y]+(1-yf)R[y]) \cap R$$
! 104: �$B$9$J$o$A�(B $I:f^\infty$ �$B$O�(B elimination �$B%$%G%"%k$K$h$j7W;;$G$-$k�(B.
! 105: \end{pr}
! 106: \proof \\
! 107: \underline{�$B1&JU�(B $\subset$ �$B:8JU�(B} $g \in$ �$B1&JU$H$9$k$H�(B, $g = ah+(1-yf)b$ ($a,b \in R[y]$)
! 108: �$B$H=q$1$k�(B. �$B$3$N<0$G�(B, $y=1/f$ �$B$H$*$$$F�(B, �$BN>JU$K�(B $f^d$ ($d$:�$B==J,Bg�(B) �$B$r3]$1$l$P�(B
! 109: $f^dg \in I$ �$B$9$J$o$A�(B $g \in I:f^d$. �$B$h$C$F�(B $g \in$ �$B:8JU�(B.\\
! 110: \underline{�$B:8JU�(B $\subset$ �$B1&JU�(B} $g \in$ �$B:8JU�(B, �$B$9$J$o$A$"$k�(B $d$ �$B$KBP$7�(B $f^dg \in I$ �$B$H�(B
! 111: �$B$9$k�(B. �$B$3$N$H$-�(B
! 112: $$g \equiv (yf)^d g \equiv 0 \bmod IR[y]+(1-yf)R[y]$$
! 113: �$B$^$?�(B, $g \in R$ �$B$h$j�(B $g \in$ �$B1&JU�(B. \qed
! 114:
! 115:
! 116:
! 117:
! 118: %*****************************************************
! 119:
! 120: \section{�$B>jM>4D�(B, �$B<!85�(B}
! 121:
! 122: \begin{pr}(�$B>jM>4D$NI=8=�(B)\\
! 123: �$B%$%G%"%k�(B $I$ �$B$KBP$7�(B, �$B>jM>4D�(B $R/I$ �$B$O�(B,�$B@55,7A$r85$H$7$FDj5A$5$l$kBe?t�(B
! 124: �$B9=B$$KF17A$G$"$k!%$9$J$o$A�(B, $R/I$ �$B$O�(B, �$B85$N=89g$H$7$F�(B
! 125: $$\{NF(f,GB(I))\mid f\in R \}$$ �$B$HF10l;k$G$-�(B, �$B$=$N2CK!�(B($\oplus$) $\cdot$ �$B>hK!�(B
! 126: ($\odot$)�$B$H$7$F<!<0$GDj5A$5$l$k$b$N$KF17A$H$J$k�(B.
! 127: $$f\oplus g = NF(f+g,GB(I))$$
! 128: $$f\odot g = NF(fg,GB(I))$$
! 129: \end{pr}
! 130:
! 131: \begin{pr}(�$B>jM>4D$N@~7A6u4V$H$7$F$N4pDl�(B)\\
! 132: \label{mbase}
! 133: �$B%$%G%"%k�(B $I$ �$B$KBP$7�(B, �$B>jM>4D�(B $R/I$ �$B$O�(B $K$-�$B@~7A6u4V$H$_$J$;$k$,�(B,
! 134: �$B$=$N@~7A6u4V$N4pDl$H$7$F%$%G%"%k$N�(B �$B%0%l%V%J4pDl$KBP$7$F@55,7A$G$"$k�(B
! 135: �$B9`A4BN$,$H$l$k�(B. �$B$9$J$o$A�(B, $R/I$ �$B$N4pDl$H$7$F�(B
! 136: \begin{center}
! 137: $\{ u \in T \mid$ �$B$9$Y$F$N�(B $f \in GB(I)$ �$B$KBP$7�(B $HT(f) {\not|} u \}$
! 138: \end{center}
! 139: �$B$,$H$l$k�(B.
! 140: \end{pr}
! 141:
! 142: \begin{df}
! 143: $I$ �$B$r%$%G%"%k$H$9$k�(B. $U \subset X$ �$B$KBP$7�(B, $I \cap K[U] = 0$ �$B$,@.$jN)�(B
! 144: �$B$D$H$-�(B $U$ �$B$O�(B independent modulo $I$ �$B$H$$$&�(B.
! 145: \end{df}
! 146:
! 147: \begin{df}(�$B%$%G%"%k$N<!85�(B)\\
! 148: �$B%$%G%"%k�(B $I$ �$B$KBP$7�(B, �$B%$%G%"%k$N<!85�(B $\dim(I)$ �$B$r�(B
! 149: \begin{center}
! 150: $\dim(I)$ = $\max(|U| \mid U \subset X$ independent modulo $I)$
! 151: \end{center}
! 152: �$B$GDj5A$9$k�(B.
! 153: \end{df}
! 154:
! 155: \begin{re}(�$B4v2?3XE*0UL#�(B)
! 156: \begin{enumerate}
! 157: \item �$B%$%G%"%k�(B $I$ �$B$N<!85$O�(B, $K$ �$B$NBe?tJDJq>e$G9M$($?Be?tE*=89g�(B $V(I)$
! 158: �$B$N@.J,$N:GBg<!?t$KEy$7$$�(B.
! 159: \item �$B$h$j0lHL$K�(B, �$BAG%$%G%"%k$N8:>/Ns$ND9$5$rMQ$$$F4D$N<!85�(B (Krull �$B<!85�(B)
! 160: �$B$,Dj5A$5$l�(B, �$B>e$NDj5A$H0lCW$9$k$3$H$,<($5$l$k�(B.
! 161: \end{enumerate}
! 162: \end{re}
! 163:
! 164: \begin{df}(Hilbert function)\\
! 165: $R=K[X]$ �$B$N�(B $s$-�$B<!@F<!85A4BN$r�(B $R_s$ �$B$H=q$/$3$H$K$9$k�(B. �$B%$%G%"%k�(B
! 166: $I$ �$B$KBP$7�(B, $I_s = I \cap K[X]_s$ �$B$H=q$/�(B.
! 167: �$B@F<!%$%G%"%k�(B $I$ �$B$KBP$7�(B, $I$ �$B$N�(B Hilbert function $H_{R/I}(s)$ �$B$r�(B
! 168: $$H_{R/I}(s) = \dim_K R_s/I_s$$
! 169: �$B$GDj5A$9$k�(B.
! 170: \end{df}
! 171:
! 172: \begin{pr}
! 173: $<$ �$B$rG$0U$N�(B order �$B$H$7�(B, $J$ �$B$r�(B $I$ �$B$N85$NF,9`$G@8@.$5$l$k%$%G%"%k�(B
! 174: �$B$H$9$k$H�(B, $H_{R/I}(s) = H_{R/J}(s)$
! 175: \end{pr}
! 176:
! 177: \section{�$B>C5nK!�(B}
! 178:
! 179: \begin{df}
! 180: �$B%$%G%"%k�(B $I$ �$B$KBP$7�(B, $I$ �$B$N�(B radical (�$B:,4p�(B) $\sqrt{I}$ �$B$r�(B
! 181: \begin{center}
! 182: $\sqrt{I} = \{f \in R \mid$ �$B$"$k�(B $e \in \N$ �$B$,B8:_$7$F�(B $f^e \in I\}$
! 183: \end{center}
! 184: �$B$GDj5A$9$k�(B. $\sqrt{I}$ �$B$b%$%G%"%k$H$J$k�(B.
! 185: \end{df}
! 186:
! 187:
! 188: \begin{df}
! 189: $L$ �$B$r�(B $K$ �$B$N3HBgBN$H$7�(B, $V \subset K^n$ �$B$H$9$k�(B. �$B$3$N$H$-%$%G%"%k�(B $I(V) \subset R$
! 190: �$B$r�(B
! 191: $$I(V) = \{f \in R \mid f|_V=0 \}$$
! 192: �$B$GDj5A$9$k�(B.
! 193:
! 194: \end{df}
! 195: �$B<!$NDjM}$O>C5nK!$N4pK\$H$J$k�(B.
! 196:
! 197: \begin{th}(Nullstellensatz; Hilbert �$B$NNmE@DjM}�(B)\\
! 198: $K$ �$B$rBN�(B, $\bar{K}$ �$B$r�(B $K$ �$B$NBe?tJDJq$H$9$k�(B. �$B%$%G%"%k�(B $I \subset K[X]$
! 199: �$B$KBP$7�(B,
! 200: $I(V_{\bar{K}}(I))=\sqrt{I}$
! 201: \end{th}
! 202:
! 203: \begin{co}
! 204: �$B%$%G%"%k�(B $I$, $J$ �$B$KBP$7�(B,
! 205: $V_{\bar{K}}(I)=V_{\bar{K}}(J) \Leftrightarrow \sqrt{I} = \sqrt{J}$
! 206: \end{co}
! 207:
! 208: \begin{pr}(0 �$B<!85%$%G%"%k$N@-<A�(B)\\
! 209: �$BBe?tJDBN�(B $K$ �$B>e$NB?9`<04D$N%$%G%"%k�(B $I$ �$B$NNmE@$N8D?t$,M-8B8D�(B
! 210: $\Leftrightarrow$ $R/I$ �$B$,�(B $K$ �$B>eM-8B<!85$N@~7A6u4V�(B
! 211: \end{pr}
! 212: \proof \\
! 213: $\Rightarrow$)
! 214: �$BM-8B8D$N2r$r�(B $r_k = (r_{k1}, \cdots, r_{kn})\quad (k = 1,
! 215: \cdots, m)$�$B$H$9$k�(B. $f_i(x_i) = \prod_k (x_i-r_{ki})$ �$B$H$*$/$H�(B,
! 216: $f_i(x_i)$ �$B$O�(B$I$ �$B$NNmE@>e$G�(B 0 �$B$H$J$k$+$i�(B, Hilbert �$B$NNmE@DjM}$K$h$j$"�(B
! 217: �$B$k�(B $t$ �$B$,B8:_$7$F�(B $f_i(x_i)^t \in I$. �$B$h$C$F�(B, $GB(I)$ �$B$K$b�(B, �$B3F�(B $i$ �$B$K�(B
! 218: �$BBP$7�(B, $HT(g)$ �$B$,�(B $x_i$ �$B$NQQ$H$J$k$b$N$,B8:_$9$k�(B. �$B$9$k$H�(B, �$BL?Bj�(B \ref{mbase}
! 219: �$B$h$j�(B $R/I$ �$B$O�(B $K$ �$B>eM-8B<!85$H$J$k�(B.\\
! 220: $\Leftarrow$)
! 221: �$B3F�(B $i$ �$B$KBP$7�(B, �$BJQ?tCf$G�(B $x_i$ �$B$,:GDc$N=g=x$K$J$k$h$&$J<-=q<0=g=x$r$H$l$P�(B,
! 222: $GB(I)$ �$BCf$K�(B, $f_i(x_i)$ �$B$J$k0lJQ?tB?9`<0$,B8:_$9$k$3$H$,$o$+$k�(B.
! 223: �$B$h$C$F�(B, �$B2r$OM-8B8D�(B. \qed
! 224:
! 225: �$BJQ?t=g=x$H$7$F�(B $x_1 < x_2 < \cdots < x_n$ �$B$J$k<-=q<0=g=x$r9M$($l$P�(B,
! 226: �$B%$%G%"%k�(B $I$ �$B$NNmE@$,M-8B8D$N>l9g$O�(B, �$B$9$Y$F$N�(B $i$ �$B$KBP$7�(B, �$B$"$k�(B
! 227: $f_i \in GB(I) \cap (K[x_1,\cdots,x_i]\setminus K[x_1,\cdots,x_{i-1}])$
! 228: �$B$,B8:_$9$k�(B. �$B$h$C$F�(B
! 229: $f_1(x_1)$�$B$+$i:,�(B $\alpha_1$ �$B$r5a$a�(B, $f_2(\alpha_1,x_2)$ �$B$+$i:,�(B
! 230: $\alpha_2$ �$B$r5a$a�(B, �$B$H$$$&A`:n$r7+$jJV$;$P�(B, $F$ �$B$N6&DLNmE@$r$9$Y$F5a$a�(B
! 231: �$B$k$3$H$,$G$-$k�(B.
! 232:
! 233: \section{�$B2C72$N%0%l%V%J4pDl�(B}
! 234:
! 235: �$B<+M32C72�(B $K[X]^l$ �$B$*$h$S�(B, �$B$=$NItJ,2C72�(B $M \subset F$ �$B$K�(B
! 236: �$BBP$7$F$b%0%l%V%J4pDl$,Dj5A$5$l$k�(B. �$B$3$N>l9g�(B, �$B9`$H$7$F$O�(B,
! 237: $te_i$ ($t \in T(X)$; $e_i = (0,\cdots,1,\cdots,0)$ : �$BBh�(B $i$ �$B@.J,$N$_�(B 1)
! 238: �$B$r$H$j�(B,
! 239: \begin{enumerate}
! 240: \item �$B$9$Y$F$N�(B $t \in T$, �$B$9$Y$F$N�(B $F$ �$B$N9`�(B $m$ �$B$KBP$7�(B $m \le tm$
! 241: \item �$B$9$Y$F$N�(B $t \in T$, �$B$9$Y$F$N�(B $F$ �$B$N9`$NAH�(B $m_1, m_2$ �$B$KBP$7�(B
! 242: $m_1 \le m_2$ $\Rightarrow$ $tm_1 \le tm_2$
! 243: \end{enumerate}
! 244: �$B$rK~$?$9A4=g=x$rF~$l$k�(B. �$B%b%N%$%G%"%k�(B $E(S)$ �$B$bF1MM$KDj5A$5$l�(B, �$B%0%l%V%J�(B
! 245: �$B4pDl$b�(B, $E(G)$ �$B$,�(B $E(M)$ �$B$r@8@.$9$k$b$N$H$7$FDj5A$5$l$k�(B. Buchberger �$B%"�(B
! 246: �$B%k%4%j%:%`$O�(B, $S$-�$BB?9`<0$r�(B, �$BF,9`$N�(B $F$ �$B$K$*$1$k0LCV$,Ey$7$$�(B (�$B$9$J$o$A�(B,
! 247: $HT(a)=t_ae_a$, $HT(b)=t_be_b$ �$B$N$H$-�(B $a=b$)�$B$KBP$7$FDL>o$NB?9`<0$HF1MM�(B
! 248: �$B$KDj5A$7�(B, �$B$=$l0J30$O�(B 0 �$B$HDj5A$9$l$PA4$/F1MM$K$G$-$k�(B. �$B2C72$N%0%l%V%J4p�(B
! 249: �$BDl$O�(B, syzygy �$B$N7W;;$rDL$7$F�(B, �$B2C72$N<+M3J,2r�(B (free resolution) �$B$rM?$($k�(B.
! 250: �$B$3$l$K$h$j�(B, �$B2C72$N%[%b%m%8!<$N7W;;$,2DG=$K$J$k$,�(B, �$B$3$3$G$O=R$Y$J�(B
! 251: �$B$$�(B.
! 252:
! 253: \section{�$BNc�(B : �$BAPBP6J@~$N7W;;�(B}
! 254: elimination �$B%$%G%"%k$N1~MQ$H$7$F�(B, �$BAPBP6J@~$N7W;;$NNc$r<($9�(B.
! 255: $f(x_1,x_2) \in \Q[x_1,x_2]$ �$B$H$7�(B, $F$ �$B$N�(B total degree �$B$r�(B $d$ �$B$H$9$l$P�(B,
! 256: $F(x_0,x_1,x_2)=x_0^df(x_1/x_0,x_2/x_0)$
! 257: �$B$O�(B $d$ �$B<!F1<!B?9`<0$G�(B, $F$ �$B$NDj5A$9$kBe?t6J@~$NAPBP6J@~$O�(B,
! 258: $$\left\{
! 259: \parbox[c]{8in}{
! 260: $u_i={{\partial F}\over {\partial x_i}} (x_0,x_1,x_2)$ $(i=0,1,2)$\\
! 261: $F(x_0,x_1,x_2)=0$
! 262: }
! 263: \right.$$
! 264: �$B$+$i�(B $x_0, x_1, x_2$ �$B$r>C5n$7$FF@$i$l$k�(B. �$B>C5nK!$N0l$D$H$7$F%0%l%V%J4pDl�(B
! 265: �$B$K$h$k>C5n$,2DG=$G$"$k�(B.
! 266: $$I = Id(
! 267: u_0-{{\partial F}\over {\partial x_0}},
! 268: u_1-{{\partial F}\over {\partial x_1}},
! 269: u_2-{{\partial F}\over {\partial x_2}},
! 270: F)$$
! 271: �$B$H$9$k;~�(B, $\{x_0, x_1, x_2\}$ $\succ$ $\{u_0, u_1, u_2\}$ �$B$J$kG$0U$N>C�(B
! 272: �$B5n=g=x$K$h$j�(B $I$ �$B$N%0%l%V%J4pDl�(B $GB(I)$ �$B$r7W;;$9$l$P�(B,
! 273: $$I \cap \Q[u_0,u_1,u_2] = Id(GB(I) \cap Q[u_0,u_1,u_2]).$$
! 274: �$B0J2<$NNc$G�(B, $V(g_i)$ �$B$O�(B $V(f_i)$ �$B$NAPBP6J@~$G$"$k�(B.
! 275:
! 276: \vskip\baselineskip
! 277: $\left\{
! 278: \parbox[c]{6in}{
! 279: $f_1=x^5-x^3+y^2$\\
! 280: $g_1=108x^7-108x^5+1017y^2x^4-16y^4x^3-4250y^2x^2+1800y^4x-108y^6+3125y^2$
! 281: }
! 282: \right.$
! 283:
! 284: \vskip\baselineskip
! 285: $\left\{
! 286: \parbox[c]{6in}{
! 287: $f_2=x^6+3y^2x^4+(3y^4-4y^2)x^2+y^6$\\
! 288: $g_2=-256x^6+(64y^4-192y^2+864)x^4+(-192y^4+1620y^2-729)x^2-256y^6+864y^4-729y^2$
! 289: }
! 290: \right.$
! 291:
! 292: \vskip\baselineskip
! 293: $\left\{
! 294: \parbox[c]{6in}{
! 295: $f_3=2x^4-3yx^2+y^4-2y^3+y^2$\\
! 296: $g_3=-12x^6+(-y^2+178y-37)x^4+(12y^3-768y^2+2208y+4608)x^2-32y^4+1024y^3-7680y^2-8192y-2048$
! 297: }
! 298: \right.$
! 299:
! 300: \vskip\baselineskip
! 301: \begin{figure}[hbtp]
! 302: \begin{tabular}{cc}
! 303: \begin{minipage}{.5\hsize}
! 304: \begin{center}
! 305: \epsfxsize=7cm
! 306: \epsffile{ps/1.ps}
! 307: \end{center}
! 308: \caption{$f_1=0$}
! 309: \label{f2}
! 310: \end{minipage} &
! 311:
! 312: \begin{minipage}{.5\hsize}
! 313: \begin{center}
! 314: \epsfxsize=7cm
! 315: \epsffile{ps/1d.ps}
! 316: \end{center}
! 317: \caption{$g_1=0$}
! 318: \label{g2}
! 319: \end{minipage}
! 320: \end{tabular}
! 321: \end{figure}
! 322:
! 323:
! 324: \begin{figure}[hbtp]
! 325: \begin{tabular}{cc}
! 326: \begin{minipage}{.5\hsize}
! 327: \begin{center}
! 328: \epsfxsize=7cm
! 329: \epsffile{ps/2.ps}
! 330: \end{center}
! 331: \caption{$f_2=0$}
! 332: \label{f3}
! 333: \end{minipage} &
! 334:
! 335: \begin{minipage}{.5\hsize}
! 336: \begin{center}
! 337: \epsfxsize=7cm
! 338: \epsffile{ps/2d.ps}
! 339: \end{center}
! 340: \caption{$g_2=0$}
! 341: \label{g3}
! 342: \end{minipage}
! 343: \end{tabular}
! 344: \end{figure}
! 345:
! 346: \begin{figure}[hbtp]
! 347: \begin{tabular}{cc}
! 348: \begin{minipage}{.5\hsize}
! 349: \begin{center}
! 350: \epsfxsize=7cm
! 351: \epsffile{ps/4.ps}
! 352: \end{center}
! 353: \caption{$f_3=0$}
! 354: \label{f5}
! 355: \end{minipage} &
! 356:
! 357: \begin{minipage}{.5\hsize}
! 358: \begin{center}
! 359: \epsfxsize=7cm
! 360: \epsffile{ps/4d.ps}
! 361: \end{center}
! 362: \caption{$g_3=0$}
! 363: \label{g5}
! 364: \end{minipage}
! 365: \end{tabular}
! 366: \end{figure}
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