Âå¿ô³Ø II 12 ¤Î²òÅú

ÌäÂê 12.1   $A=\mbox{${\Bbb R}$ }[X,Y,Z]$ ¤«¤é $A$ ¤Ø¤Î´Ä½àƱ·Á¼ÌÁü $\phi$ ¤ò

$$\phi(X)=XZ,\quad \phi(Y)=(YZ),\quad \phi(Z)=Z$$

¤ÇÄêµÁ¤¹¤ë¡£¤µ¤é¤Ë¡¢$A$ ¤Î¥¤¥Ç¥¢¥ë $I$ ¤ò¡¢

$$I=(X^2+Y^2-1)$$

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1.

$V(I)$ ¤Î¥°¥é¥Õ¤Î³µ·Á¤ò½ñ¤­¤Ê¤µ¤¤¡£

2.

$\psi=\pi\circ\phi: A \to A/I$ ¤Î³Ë¤òµá¤á¤Ê¤µ¤¤¡£ ¤¿¤À¤· $\pi:A\to A/I$ ¤Ï¼«Á³¤Ê¼Í±Æ ($p$ ¤ËÂФ·¤Æ¤½¤Î¥¯¥é¥¹ $[p]$¤òÂбþ¤µ¤»¤ë½àƱ·¿)¤Ç¤¢¤ë¡£

3.

${}^a\psi$ ¤ÎÁü¤Î³µ·Á¤ò½ñ¤­¤Ê¤µ¤¤¡£

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(2) $\operatorname{Ker}(\psi)$ ¤Ï

$$\operatorname{Ker}(\psi)=\{f(X,Y,Z)\in \mbox{${\Bbb R}$}[X,Y,Z]; f(XZ,YZ,Z)\in (X^2+Y^2-1)\}$$

¤Ç¤¢¤ë¡£ÌäÂê¤Ï¤³¤ì¤Î·×»»¤Ç¤¢¤ë¤¬¡¢ ¤Þ¤º $f_0(X,Y,Z)=X^2+Y^2-Z^2$ ¤¬ $\operatorname{Ker}(\psi)$ ¤ËÆþ¤ë¤³¤È¤ò³Îǧ¤·¤ÆÍߤ·¤¤¡£ ¤¸¤Ã¤µ¤¤¡¢

$$f_0(XZ,YZ,Z)=(XZ)^2+(YZ)^2-Z^2=(X^2+Y^2-1)Z^2$$

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$$g=f_0q+r, \quad$$

¤ò¤ß¤¿¤·¡¢ $r$ ¤Î $X$ ¤Ë´Ø¤¹¤ë¼¡¿ô¤Ï $2$ °Ê²¼¡¢¤È¤Ê¤ë¤â¤Î¤¬Â¸ºß¤¹¤ë¡£ $r$ ¤Ï $X$ ¤Ë´Ø¤·¤Æ $2$ ¼¡°Ê²¼¤Ê¤Î¤À¤«¤é¡¢¤³¤ì¤ò

$$r(X,Y,Z)=r_1(Y,Z)X+r_0(Y,Z)$$

¤È¤¤¤¦¶ñ¹ç¤Ë½ñ¤¤¤Æ¤ß¤ì¤Ð¡¢

$$0=\psi(g)=\psi(r)=r_1(YZ,Z)XZ+r_0(YZ,Z)$$

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ÌäÂê 12.2   $B=\mbox{${\Bbb R}$ }[X,Y]$ ¤«¤é $B$ ¤Ø¤Î´Ä½àƱ·Á¼ÌÁü $\varphi$ ¤ò

$$\varphi(X)=XY,\qquad \varphi(Y)=Y$$

¤ÇÄêµÁ¤¹¤ë¡£¤µ¤é¤Ë¡¢$B$ ¤Î¥¤¥Ç¥¢¥ë $J$ ¤ò¡¢

$$J=(Y-X^2+1)$$

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1.

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$$S=\{ (x,y)\in \mbox{${\Bbb R}$}^2; x \in {\mbox{${\Bbb Z}$}}\text{ or } y \in {\mbox{${\Bbb Z}$}}\}$$

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2.

$V(J)$ ¤Î¥°¥é¥Õ¤Î³µ·Á¤ò½ñ¤­¤Ê¤µ¤¤¡£

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4.

${}^a\rho$ ¤ÎÁü¤Î³µ·Á¤ò½ñ¤­¤Ê¤µ¤¤¡£

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