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Rings

Description: This quiz is designed to assess your understanding of the concept of rings in abstract algebra. It covers topics such as the definition of a ring, various types of rings, ring operations, and properties of rings.
Number of Questions: 15
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Tags: algebra rings abstract algebra
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What is a ring in abstract algebra?

  1. A non-empty set with two binary operations, addition and multiplication, that satisfy certain properties.

  2. A group with an additional operation called multiplication.

  3. A field with an additional operation called subtraction.

  4. A vector space with an additional operation called scalar multiplication.

Show answer
Correct Option: A
Explanation:

A ring is a non-empty set R equipped with two binary operations, addition (+) and multiplication (x), that satisfy the following properties:

  1. Associativity of addition: For all a, b, c in R, (a + b) + c = a + (b + c).
  2. Commutativity of addition: For all a, b in R, a + b = b + a.
  3. Existence of additive identity: There exists an element 0 in R such that for all a in R, a + 0 = a.
  4. Existence of additive inverse: For each a in R, there exists an element -a in R such that a + (-a) = 0.
  5. Associativity of multiplication: For all a, b, c in R, (a x b) x c = a x (b x c).
  6. Distributivity of multiplication over addition: For all a, b, c in R, a x (b + c) = (a x b) + (a x c).

Which of the following is an example of a ring?

  1. The set of integers (Z) with the usual addition and multiplication operations.

  2. The set of rational numbers (Q) with the usual addition and multiplication operations.

  3. The set of real numbers (R) with the usual addition and multiplication operations.

  4. The set of complex numbers (C) with the usual addition and multiplication operations.

Show answer
Correct Option: A
Explanation:

The set of integers (Z) forms a ring under the usual addition and multiplication operations because it satisfies all the properties of a ring. The other options are not rings because they do not satisfy all the properties of a ring.

What is a commutative ring?

  1. A ring in which the multiplication operation is commutative.

  2. A ring in which the addition operation is commutative.

  3. A ring in which both the addition and multiplication operations are commutative.

  4. A ring in which neither the addition nor the multiplication operation is commutative.

Show answer
Correct Option: A
Explanation:

A commutative ring is a ring in which the multiplication operation is commutative, meaning that for all a, b in R, a x b = b x a. The other options are not correct because they do not accurately define a commutative ring.

Which of the following is an example of a commutative ring?

  1. The set of integers (Z) with the usual addition and multiplication operations.

  2. The set of rational numbers (Q) with the usual addition and multiplication operations.

  3. The set of real numbers (R) with the usual addition and multiplication operations.

  4. The set of complex numbers (C) with the usual addition and multiplication operations.

Show answer
Correct Option: A
Explanation:

The set of integers (Z) forms a commutative ring under the usual addition and multiplication operations because the multiplication operation is commutative, meaning that for all a, b in Z, a x b = b x a.

What is a division ring?

  1. A ring in which every nonzero element has a multiplicative inverse.

  2. A ring in which every element has a multiplicative inverse.

  3. A ring in which every nonzero element has an additive inverse.

  4. A ring in which every element has an additive inverse.

Show answer
Correct Option: A
Explanation:

A division ring is a ring in which every nonzero element has a multiplicative inverse, meaning that for every nonzero element a in R, there exists an element b in R such that a x b = b x a = 1, where 1 is the multiplicative identity of R. The other options are not correct because they do not accurately define a division ring.

Which of the following is an example of a division ring?

  1. The set of integers (Z) with the usual addition and multiplication operations.

  2. The set of rational numbers (Q) with the usual addition and multiplication operations.

  3. The set of real numbers (R) with the usual addition and multiplication operations.

  4. The set of complex numbers (C) with the usual addition and multiplication operations.

Show answer
Correct Option: B
Explanation:

The set of rational numbers (Q) forms a division ring under the usual addition and multiplication operations because every nonzero rational number has a multiplicative inverse. The other options are not division rings because they do not satisfy this property.

What is a field?

  1. A commutative ring with a multiplicative identity.

  2. A commutative ring with a multiplicative inverse for every nonzero element.

  3. A non-commutative ring with a multiplicative identity.

  4. A non-commutative ring with a multiplicative inverse for every nonzero element.

Show answer
Correct Option: B
Explanation:

A field is a commutative ring in which every nonzero element has a multiplicative inverse. This means that for every nonzero element a in F, there exists an element b in F such that a x b = b x a = 1, where 1 is the multiplicative identity of F. The other options are not correct because they do not accurately define a field.

Which of the following is an example of a field?

  1. The set of integers (Z) with the usual addition and multiplication operations.

  2. The set of rational numbers (Q) with the usual addition and multiplication operations.

  3. The set of real numbers (R) with the usual addition and multiplication operations.

  4. The set of complex numbers (C) with the usual addition and multiplication operations.

Show answer
Correct Option: B
Explanation:

The set of rational numbers (Q) forms a field under the usual addition and multiplication operations because it is a commutative ring and every nonzero rational number has a multiplicative inverse. The other options are not fields because they do not satisfy this property.

What is the zero element of a ring?

  1. The element that, when added to any other element, leaves that element unchanged.

  2. The element that, when multiplied by any other element, leaves that element unchanged.

  3. The element that, when added to itself, results in the element itself.

  4. The element that, when multiplied by itself, results in the element itself.

Show answer
Correct Option: A
Explanation:

The zero element of a ring is the element that, when added to any other element in the ring, leaves that element unchanged. It is usually denoted by 0 or +0. The other options are not correct because they do not accurately define the zero element of a ring.

What is the multiplicative identity of a ring?

  1. The element that, when added to any other element, leaves that element unchanged.

  2. The element that, when multiplied by any other element, leaves that element unchanged.

  3. The element that, when added to itself, results in the element itself.

  4. The element that, when multiplied by itself, results in the element itself.

Show answer
Correct Option: B
Explanation:

The multiplicative identity of a ring is the element that, when multiplied by any other element in the ring, leaves that element unchanged. It is usually denoted by 1 or x1. The other options are not correct because they do not accurately define the multiplicative identity of a ring.

What is the additive inverse of an element in a ring?

  1. The element that, when added to the given element, results in the zero element.

  2. The element that, when multiplied by the given element, results in the zero element.

  3. The element that, when added to itself, results in the given element.

  4. The element that, when multiplied by itself, results in the given element.

Show answer
Correct Option: A
Explanation:

The additive inverse of an element a in a ring is the element -a such that a + (-a) = 0, where 0 is the zero element of the ring. The other options are not correct because they do not accurately define the additive inverse of an element in a ring.

What is the multiplicative inverse of an element in a division ring?

  1. The element that, when added to the given element, results in the zero element.

  2. The element that, when multiplied by the given element, results in the zero element.

  3. The element that, when added to itself, results in the given element.

  4. The element that, when multiplied by itself, results in the given element.

Show answer
Correct Option:
Explanation:

The multiplicative inverse of an element a in a division ring is the element b such that a x b = b x a = 1, where 1 is the multiplicative identity of the division ring. The other options are not correct because they do not accurately define the multiplicative inverse of an element in a division ring.

What is an ideal of a ring?

  1. A non-empty subset of a ring that is closed under addition and multiplication.

  2. A non-empty subset of a ring that is closed under addition and subtraction.

  3. A non-empty subset of a ring that is closed under multiplication and division.

  4. A non-empty subset of a ring that is closed under addition and exponentiation.

Show answer
Correct Option: A
Explanation:

An ideal of a ring R is a non-empty subset I of R that is closed under addition and multiplication, meaning that for all a, b in I and r in R, a + b is in I and r x a is in I. The other options are not correct because they do not accurately define an ideal of a ring.

Which of the following is an example of an ideal of the ring of integers (Z)?

  1. The set of even integers.

  2. The set of odd integers.

  3. The set of prime numbers.

  4. The set of composite numbers.

Show answer
Correct Option: A
Explanation:

The set of even integers is an ideal of the ring of integers (Z) because it is a non-empty subset of Z that is closed under addition and multiplication. The other options are not ideals of Z because they are not closed under addition or multiplication.

What is a maximal ideal of a ring?

  1. An ideal that is not properly contained in any other ideal.

  2. An ideal that is properly contained in every other ideal.

  3. An ideal that is the largest ideal in the ring.

  4. An ideal that is the smallest ideal in the ring.

Show answer
Correct Option: A
Explanation:

A maximal ideal of a ring R is an ideal M that is not properly contained in any other ideal of R. This means that there is no ideal I in R such that M is a proper subset of I. The other options are not correct because they do not accurately define a maximal ideal of a ring.

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