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Consider this expression:
[tex]\[ 2 + z - 72 \][/tex]

Replace the values of [tex]\(a\)[/tex] and [tex]\(b\)[/tex] to rewrite the given expression:
[tex]\[ (x + a)(x + b) \][/tex]

Sagot :

GinnyAnsweridn
To rewrite the given expression [tex]\(2 + z - 72\)[/tex] in the form [tex]\((x + a)(x + b)\)[/tex], we first need to interpret it as a product of two binomials. Here’s the detailed step-by-step solution for this:

1. Understand the Given Expression:
The expression given is [tex]\(2 + z - 72\)[/tex]. To factorize this into [tex]\((x + a)(x + b)\)[/tex], let's assume we want to keep the same linear combination, despite the expression naturally representing a constant or first-degree polynomial, which usually wouldn’t directly fit into the second-degree polynomial format [tex]\(x^2 + (a+b)x + ab\)[/tex].

2. Equate to Binomial Expansion:
Suppose we want to fit this linear combination. We know the expanded form of [tex]\((x + a)(x + b)\)[/tex] is:
[tex]\[ x^2 + (a + b)x + ab \][/tex]

Matching this with the given simpler linear expression requires us to consider each component's corresponding role. In this specific question, without x:

[tex]\[ 2 + z - 72 \][/tex]

Determining that any direct coefficients cannot directly linearly reconcile (since actual balancing in traditional second-degree forms isn’t applicable given only a zero-degree polynomial in x), linear reduction must occur. But extending understanding, we can contemplate constants and significance:

[tex]\[ \underline{Note:} \quad Interpretation directly asks reassignment (biconditional). To evaluate summing effects based on varied notations: \][/tex]

3. Balance Derived Values:
Consider ways [tex]\( (2+z) \& -72 \)[/tex]. Since nature opposes higher degrees or squared impacts:

- Assign potential pair splits or compensations to form:
[tex]\[ \mathbf{a=b}=minimal pairs \quad during such notations. Rephrased simpler, compounded parts. Rebasic, performed analogue: \][/tex]
Special case extensions loosely empirical non-traditional exact transfer:
- arbitrary context magic or implied converter requests conditional interpolative style per:

4. Solve Resultantly:

- Identifying assumed [tex]\((2,z)=suggest probabilistic-2sum compensatory): \( \boxed{x+a:minimal simplifiers} \)[/tex]

Collated presumption without exact computation: reassignment inference: additional bridging compensates abstract context.

[tex]\(\underline{Therefore:}\)[/tex]
Re-framed translatable form accepting generalized lack re-category usually interpolatively minimalized suggestor:
\( General abstraction outlining symbolic sub factor \, recontextualized \quad minimum \, bridged.
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