What will be the smallest ring containing two rings?
Let $A$ be a commutative ring with $1$. Suppose $R$ and $S$ are two subrings of $A$ containing the same multiplicative unity. Then what is the description of the smallest ring containing $R$ and $S$ inside $A$ ?
In addition if $R$ and $S$ are domains can we say that the smallest ring containing them is also a domain?
I need some explanations to this. Thank you.
abstract-algebra ring-theory commutative-algebra integral-domain
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Let $A$ be a commutative ring with $1$. Suppose $R$ and $S$ are two subrings of $A$ containing the same multiplicative unity. Then what is the description of the smallest ring containing $R$ and $S$ inside $A$ ?
In addition if $R$ and $S$ are domains can we say that the smallest ring containing them is also a domain?
I need some explanations to this. Thank you.
abstract-algebra ring-theory commutative-algebra integral-domain
add a comment |
Let $A$ be a commutative ring with $1$. Suppose $R$ and $S$ are two subrings of $A$ containing the same multiplicative unity. Then what is the description of the smallest ring containing $R$ and $S$ inside $A$ ?
In addition if $R$ and $S$ are domains can we say that the smallest ring containing them is also a domain?
I need some explanations to this. Thank you.
abstract-algebra ring-theory commutative-algebra integral-domain
Let $A$ be a commutative ring with $1$. Suppose $R$ and $S$ are two subrings of $A$ containing the same multiplicative unity. Then what is the description of the smallest ring containing $R$ and $S$ inside $A$ ?
In addition if $R$ and $S$ are domains can we say that the smallest ring containing them is also a domain?
I need some explanations to this. Thank you.
abstract-algebra ring-theory commutative-algebra integral-domain
abstract-algebra ring-theory commutative-algebra integral-domain
edited 20 hours ago
Zvi
4,910430
4,910430
asked yesterday
user371231
692511
692511
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The smallest ring containing both $R$ and $S$ is the set
$$ left{sum_{i=1}^n r_is_i Bigg| nin mathbb{N}, r_iin R, s_i in Sright}. $$
Even if $R$ and $S$ are domains, this ring does not have to be a domain: take $A=mathbb{Z}[x,y]/(xy)$, $R= mathbb{Z}[x]$ and $S = mathbb{Z}[y]$.
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1 Answer
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1 Answer
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oldest
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active
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votes
The smallest ring containing both $R$ and $S$ is the set
$$ left{sum_{i=1}^n r_is_i Bigg| nin mathbb{N}, r_iin R, s_i in Sright}. $$
Even if $R$ and $S$ are domains, this ring does not have to be a domain: take $A=mathbb{Z}[x,y]/(xy)$, $R= mathbb{Z}[x]$ and $S = mathbb{Z}[y]$.
add a comment |
The smallest ring containing both $R$ and $S$ is the set
$$ left{sum_{i=1}^n r_is_i Bigg| nin mathbb{N}, r_iin R, s_i in Sright}. $$
Even if $R$ and $S$ are domains, this ring does not have to be a domain: take $A=mathbb{Z}[x,y]/(xy)$, $R= mathbb{Z}[x]$ and $S = mathbb{Z}[y]$.
add a comment |
The smallest ring containing both $R$ and $S$ is the set
$$ left{sum_{i=1}^n r_is_i Bigg| nin mathbb{N}, r_iin R, s_i in Sright}. $$
Even if $R$ and $S$ are domains, this ring does not have to be a domain: take $A=mathbb{Z}[x,y]/(xy)$, $R= mathbb{Z}[x]$ and $S = mathbb{Z}[y]$.
The smallest ring containing both $R$ and $S$ is the set
$$ left{sum_{i=1}^n r_is_i Bigg| nin mathbb{N}, r_iin R, s_i in Sright}. $$
Even if $R$ and $S$ are domains, this ring does not have to be a domain: take $A=mathbb{Z}[x,y]/(xy)$, $R= mathbb{Z}[x]$ and $S = mathbb{Z}[y]$.
edited 20 hours ago
Zvi
4,910430
4,910430
answered 23 hours ago
Pierre-Guy Plamondon
8,65011639
8,65011639
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