High School

Which of the following is TRUE about the structure of "On Her Loving Two Equally"?

A. It consists of 5 stanzas.
B. It consists of three sestets.
C. There is no rhyme in the entire poem.
D. The rhyme scheme in stanza II is aabbcc.

Answer :

Final answer:

The poem 'On Her Loving Two Equally' consists of three sestets with a specific rhyme scheme. It does not have five stanzas, and there is a rhyme present.

Explanation:

'On Her Loving Two Equally' is a poem structured in three sestets, meaning each stanza consists of six lines. The correct answer to the given question is Option B: It consists of three sestets. Additionally, there's a specific rhyme scheme observed in this poem's construction. For the first and second stanzas, the rhyme scheme is ABABCC, while the last stanza's rhyme scheme is AABBCC. This information contradicts Option C and Option D. Option A is also incorrect as the poem does not have five stanzas, but only three.

Learn more about Poem Structure here:

https://brainly.com/question/31096020

#SPJ6

Final answer:

The structure of 'On Her Loving Two Equally' is not explicitly provided, but given the focus on rhyming quatrains and sonnet forms, there is likely a consistent rhyme scheme and stanza organization within the poem, contrary to the given options.

Explanation:

Based on the provided information, none of the provided options concerning 'On Her Loving Two Equally' seem to match exactly. However, the poem 'Design' by Frost and the Petrarchan sonnet structure are both described as containing an octave and a sestet, indicating a possible 14-line structure with a specific rhyme scheme.

While the exact structure of 'On Her Loving Two Equally' is not detailed, the reference to quatrains and a sonnet form in the information implies a structured, rhyming format. As such, we can deduce that the statement about there being no rhyme in the entire poem (Option C) is unlikely to be true, and the correct answer should involve some form of rhyme scheme and stanza organization, likely featuring quatrains, octaves, or sestets.