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Abstract Algebra : Abstract Algebra

Study concepts, example questions & explanations for Abstract Algebra

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All Abstract Algebra Resources

9 Practice Tests Question of the Day Flashcards Learn by Concept

Example Questions

Example Question #1 : Abstract Algebra

Which of the following is an identity element of the binary operation (*) ?

Possible Answers:

e*b=b

b*b=e

e*b=eb

e*b=b^2

e*b=e^2

Correct answer:

e*b=b

Explanation:

Defining the binary operation (*) will help in understanding the identity element. Say is a set and the binary operator is defined as $A\times A\rightarrow A$ for all given pairs in .

Then there exists an identity element in such that given,

$\\a,b,c \ \epsilon\ A$

$\\a*e=a, e*a=a \\b*e=b, e*b=b \\c*e=c,e*c=c$

Therefore, looking at the possible answer selections the correct answer is,

e*b=b

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Example Question #2 : Abstract Algebra

Which of the following illustrates the inverse element?

Possible Answers:

a*b=a

b*e=b

a*b=e

a*b=b

a*e=a

Correct answer:

a*b=e

Explanation:

For every element in a set, there exists another element that when they are multiplied together results in the identity element.

In mathematical terms this is stated as follows.

For every $a\ \epsilon\ S\ \exists\ b\ \epsilon\ S$ such that a*b=e where $e\ \epsilon\ S$ and is an identity element.

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Example Question #3 : Abstract Algebra

identify the following definition.

Given is a normal subgroup of , it is denoted that A/B when the group of left cosets of in is called __________.

Possible Answers:

Simple Group

Cosets

Subgroup

Normal Group

Factor Group

Correct answer:

Factor Group

Explanation:

By definition of a factor group it is stated,

Given is a normal subgroup of , it is denoted that A/B when the group of left cosets of in is called the factor group of which is determined by .

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Example Question #4 : Abstract Algebra

Determine whether the statement is true of false:

(aA)(bA)=abA

Possible Answers:

False

True

Correct answer:

True

Explanation:

This statement is true based on the following theorem.

For all , in .

If is a normal subgroup of then the cosets of forms a group under the multiplication given by,

(aA)(bA)=abA

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Example Question #3 : Abstract Algebra

Which of the following is an ideal of a ring?

Possible Answers:

Multiplicative Ideal

Minimum Ideal

Associative Ideal

Prime Ideal

All are ideals of rings.

Correct answer:

Prime Ideal

Explanation:

When dealing with rings there are three main ideals

Proper Ideal: When is a commutative ring, and is a non empty subset of then, is said to have a proper ideal if both the following are true.

$a\pm b \ \epsilon\ A\ \forall\ a,b\ \epsilon\ I$ and $ca\ \epsilon\ A,\ a\ \epsilon\ A, c\ \epsilon\ R$

Prime Ideal: When is a commutative ring, is a prime ideal if

$\forall\ a,b\ \epsilon\ R$ is true and $ab\ \epsilon\ A \rightarrow a\ \epsilon\ A \vee\ b\ \epsilon\ A$

Maximal Ideal: When is a commutative ring, and is a non empty subset of then, has a maximal ideal if all ideal are

$\\A\subseteq B\subseteq R, \\ B=A \vee\ B=R$

Looking at the possible answer selections, Prime Ideal is the correct answer choice.

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Example Question #4 : Abstract Algebra

Which of the following is an ideal of a ring?

Possible Answers:

Associative Ideal

Communicative Ideal

Minimal Ideal

None are ideals

Maximal Ideal

Correct answer:

Maximal Ideal

Explanation:

When dealing with rings there are three main ideals

Proper Ideal: When is a commutative ring, and is a non empty subset of then, is said to have a proper ideal if both the following are true.

$a\pm b \ \epsilon\ A\ \forall\ a,b\ \epsilon\ I$ and $ca\ \epsilon\ A,\ a\ \epsilon\ A, c\ \epsilon\ R$

Prime Ideal: When is a commutative ring, is a prime ideal if

$\forall\ a,b\ \epsilon\ R$ is true and $ab\ \epsilon\ A \rightarrow a\ \epsilon\ A \vee\ b\ \epsilon\ A$

Maximal Ideal: When is a commutative ring, and is a non empty subset of then, has a maximal ideal if all ideal are

$\\A\subseteq B\subseteq R, \\ B=A \vee\ B=R$

Looking at the possible answer selections, Maximal Ideal is the correct answer choice.

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Example Question #5 : Abstract Algebra

Which of the following is an ideal of a ring?

Possible Answers:

Associative Ideal

All are ideals

Communicative Ideal

Proper Ideal

Minimal Ideal

Correct answer:

Proper Ideal

Explanation:

When dealing with rings there are three main ideals

Proper Ideal: When is a commutative ring, and is a non empty subset of then, is said to have a proper ideal if both the following are true.

$a\pm b \ \epsilon\ A\ \forall\ a,b\ \epsilon\ I$ and $ca\ \epsilon\ A,\ a\ \epsilon\ A, c\ \epsilon\ R$

Prime Ideal: When is a commutative ring, is a prime ideal if

$\forall\ a,b\ \epsilon\ R$ is true and $ab\ \epsilon\ A \rightarrow a\ \epsilon\ A \vee\ b\ \epsilon\ A$

Maximal Ideal: When is a commutative ring, and is a non empty subset of then, has a maximal ideal if all ideal are

$\\A\subseteq B\subseteq R, \\ B=A \vee\ B=R$

Looking at the possible answer selections, Prime Ideal is the correct answer choice.

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Example Question #3 : Abstract Algebra

What definition does the following correlate to?

If is a prime, then the following polynomial is irreducible over the field of rational numbers.

$\phi(x)=x^{p-1}+...+x+1$

Possible Answers:

Ideals Theorem

Principal Ideal Domain

Eisenstein's Irreducibility Criterion

Primitive Field Theorem

Gauss's Lemma

Correct answer:

Eisenstein's Irreducibility Criterion

Explanation:

The Eisenstein's Irreducibility Criterion is the theorem for which the given statement is a corollary to.

The Eisenstein's Irreducibility Criterion is as follows.

$f(x)=a_nx^n+a_{n-1}x^{n-1}+...+a_0$

is a polynomial with coefficients that are integers. If there is a prime number that satisfy the following,

$\\a_{n-1}\equiv a_{n-2}\equiv ...\equiv a+0\equiv 0 (\mod b)) \\a_n\not\equiv 0 (\mod b), a_0\not\equiv 0 (\mod b^2)$

Then over the field of rational numbers f(x) is said to be irreducible.

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Example Question #4 : Abstract Algebra

Identify the following definition.

For some subfield of $\mathbb{R}$ , in the Euclidean plane $\mathbb{R}^2$ , the set of all points (x,y) that belong to that said subfield is called the __________.

Possible Answers:

Plane

Angle

None of the answers.

Line

Constructible Line

Correct answer:

Plane

Explanation:

By definition, when is a subfield of $\mathbb{R}$ , in the Euclidean plane $\mathbb{R}^2$ , the set of all points (x,y) that belong to is called the plane of .

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Example Question #5 : Abstract Algebra

Identify the following definition.

Given that lives in the Euclidean plane $\mathbb{R}^2$ . Elements , , and in the subfield that form a straight line who's equation form is ax+by+c=0 , is known as a__________.

Possible Answers:

Line in

Circle in

Subfield

Angle

Plane

Correct answer:

Line in

Explanation:

By definition, given that lives in the Euclidean plane $\mathbb{R}^2$ . When elements , , and in the subfield , form a straight line who's equation form is ax+by+c=0 , is known as a line in .

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All Abstract Algebra Resources

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Abstract Algebra : Abstract Algebra

Study concepts, example questions & explanations for Abstract Algebra

All Abstract Algebra Resources

Example Questions

Example Question #1 : Abstract Algebra

Example Question #2 : Abstract Algebra

Example Question #3 : Abstract Algebra

Example Question #4 : Abstract Algebra

Example Question #3 : Abstract Algebra

Example Question #4 : Abstract Algebra

Example Question #5 : Abstract Algebra

Example Question #3 : Abstract Algebra

Example Question #4 : Abstract Algebra

Example Question #5 : Abstract Algebra

All Abstract Algebra Resources

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