IGNOU BMTC-134 Solved Assignment 2024 | B.Sc (G) CBCS
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IGNOU BMTC-134 Assignment Question Paper 2024
bmtc-134-solved-assignment-2024-10cd7422-4b11-4531-9171-a6445826d855
- Which of the following statements are true? Give reasons for your answers.
- a) Prove that every non-trivial subgroup of a cyclic group has finite index. Hence prove that
(Q,+) (\mathbb{Q},+) is not cyclic.
i)
ii) If
- a) Using Cayley’s theorem, find the permutation group to which a cyclic group of order 12 is isomorphic.
- Use the Fundamental Theorem of Homomorphism for Groups to prove the following theorem, which is called the Zassenhaus (Butterfly) Lemma:
LetH \mathrm{H} andK \mathrm{K} be subgroups of a groupG \mathrm{G} andH^(‘) \mathrm{H}^{\prime} andK^(‘) \mathrm{K}^{\prime} be normal subgroups ofH \mathrm{H} andK \mathrm{K} , respectively. Then
i)H^(‘)(HnnK^(‘))◃H^(‘)(HnnK) \mathrm{H}^{\prime}\left(\mathrm{H} \cap \mathrm{K}^{\prime}\right) \triangleleft \mathrm{H}^{\prime}(\mathrm{H} \cap \mathrm{K})
ii)K^(‘)(H^(‘)nnK)◃K^(‘)(HnnK) \mathrm{K}^{\prime}\left(\mathrm{H}^{\prime} \cap \mathrm{K}\right) \triangleleft \mathrm{K}^{\prime}(\mathrm{H} \cap \mathrm{K})
(Based on Block 3.)
- Which of the following statements are true, and which are false? Give reasons for your answers.
- a) For an ideal
I I of a commutative ringR R , definesqrtI={xinR∣x^(n)inI:} \sqrt{\mathrm{I}}=\left\{\mathrm{x} \in \mathrm{R} \mid \mathrm{x}^{\mathrm{n}} \in \mathrm{I}\right. for some{:ninN} \left.\mathrm{n} \in \mathbb{N}\right\} . Show that
i)sqrtI \sqrt{I} is an ideal ofR R .
ii)I subesqrtI I \subseteq \sqrt{I} .
iii)quad I!=sqrtI \quad I \neq \sqrt{I} in some cases.
- Let
S S be a set,R R a ring andf f be a 1-1 mapping ofS S ontoR R . Define + and* \cdot onS S by:
- Which of the following statements are true, and which are false? Give reasons for your answers.
i) Ifk \mathrm{k} is a field, then so iskxxk \mathrm{k} \times \mathrm{k} .
- a) Find all the units of
Z[sqrt(-7)] \mathbb{Z}[\sqrt{-7}] .
BMTC-134 Sample Solution 2024
bmtc-134-solved-assignment-2024-10cd7422-4b11-4531-9171-a6445826d855
- Which of the following statements are true? Give reasons for your answers.
-
If
G G is isomorphic to one of its proper subgroups: This means there exists a proper subgroupH sub G H \subset G such that there is an isomorphismf:G rarr H f: G \to H . Sincef f is bijective, every element inG G corresponds to a unique element inH H , and vice versa. -
Then
G=Z G = \mathbb{Z} : This part of the statement claims that the only group for which the above condition can be true is the group of integers under addition,Z \mathbb{Z} .
- Given:
x**y=y**x x * y = y * x for somex,y in G x, y \in G , a non-abelian group. - To Prove:
x=e x = e ory=e y = e .
-
Existence of a Non-Abelian Group of Prime Order: The key property of prime numbers is that they have exactly two distinct positive divisors: 1 and themselves. For a group of prime order
p p , this means there arep p elements in the group. -
Uniqueness and Structure of Groups of Prime Order: According to Lagrange’s Theorem in group theory, the order of every subgroup of a group
G G must divide the order ofG G . For a group of prime orderp p , the only divisors are 1 andp p itself. This implies that the only subgroups of such a group are the trivial group (with just the identity element) and the group itself. -
Implication for Abelian Property: In a group of prime order, every element except the identity must generate the entire group (since any subgroup must have order 1 or
p p ). This means that every non-identity element is a generator of the group. In such a scenario, the group operation must be commutative, as there is only one group structure possible under which all elements (except the identity) are generators. This group structure is essentially cyclic, and all cyclic groups are abelian.
- Given:
(a,b)in A xx A (a, b) \in A \times A , whereA A is a group. - To Prove:
o((a,b))=o(a)o(b) o((a, b)) = o(a) o(b) .
- For
n=2 n = 2 ,(a,b)^(2)=(a^(2),b^(2))=(e,b^(2)) (a, b)^2 = (a^2, b^2) = (e, b^2) . Sinceb^(2)!=e b^2 \neq e ,n=2 n = 2 is not the order of(a,b) (a, b) . - For
n=4 n = 4 ,(a,b)^(4)=(a^(4),b^(4))=(e,e) (a, b)^4 = (a^4, b^4) = (e, e) . Here,n=4 n = 4 is the smallest positive integer satisfying the condition.
- Given:
H H andK K are normal subgroups ofG G . - To Prove:
hk=kh hk = kh for allh in H h \in H andk in K k \in K .
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