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Consider this quotient:
[tex]\[
\frac{3x^2 - 27x}{2x^2 + 13x - 7} \div \frac{3x}{4x^2 - 1}
\][/tex]

The simplest form of this quotient has a numerator of [tex]$\square$[/tex] and a denominator of [tex]$\square$[/tex].
The expression does not exist when [tex]$x = \square$[/tex].

Sagot :

GinnyAnsweridn
Let's break down the given problem step-by-step to simplify the quotient of two rational expressions and find when the expression does not exist.

### Simplifying the Quotient

We start with the quotient of two rational expressions:
[tex]\[ \frac{3 x^2 - 27 x}{2 x^2 + 13 x - 7} \div \frac{3 x}{4 x^2 - 1} \][/tex]

To divide by a fraction, we multiply by its reciprocal:
[tex]\[ \frac{3 x^2 - 27 x}{2 x^2 + 13 x - 7} \times \frac{4 x^2 - 1}{3 x} \][/tex]

### Simplifying Each Term

1. Factor the numerators and denominators if possible:
- Numerator of the first fraction: [tex]\( 3 x^2 - 27 x = 3 x (x - 9) \)[/tex]
- Denominator of the first fraction: [tex]\( 2 x^2 + 13 x - 7 \)[/tex] (cannot be factored easily, so we leave it as it is for now)
- Numerator of the second fraction: [tex]\( 4 x^2 - 1 = (2 x + 1)(2 x - 1) \)[/tex]
- Denominator of the second fraction: [tex]\( 3 x \)[/tex]

2. Combine and simplify:
[tex]\[ \frac{3 x (x-9)}{2 x^2 + 13 x - 7} \times \frac{(2 x + 1)(2 x - 1)}{3 x} \][/tex]

3. Cancel common factors:
The [tex]\(3 x\)[/tex] in the numerator of the first fraction and denominator of the second fraction cancel each other out.
[tex]\[ \frac{(x-9)(2 x + 1)(2 x - 1)}{2 x^2 + 13 x - 7} \][/tex]

### Combining the Terms:
After simplification:
- The numerator becomes: [tex]\( (2 x + 1)(2 x - 1)(x-9) \)[/tex] which then simplifies further through distribution to form a quadratic term (although the exact product might be computed directly for specific values, we consider it simplified structurally).

Putting it all together in its simplest form directly leads us to:
[tex]\[ \frac{2x^2 - 17x - 9}{x + 7} \][/tex]

### Undefined Values:
The expression is undefined when the denominator is zero. Solve for [tex]\( x \)[/tex] in the denominator:
[tex]\[ x + 7 = 0 \implies x = -7 \][/tex]

### Summary:
1. The simplest form of this quotient is:
- Numerator: [tex]\( 2 x^2 - 17 x - 9 \)[/tex]
- Denominator: [tex]\( x + 7 \)[/tex]
2. The expression does not exist when [tex]\( x = -7 \)[/tex].

So the correct fill-in for the drop-down menus is:

- Numerator: [tex]\( 2 x^2 - 17 x - 9 \)[/tex]
- Denominator: [tex]\( x + 7 \)[/tex]
- Undefined values: [tex]\( x = -7 \)[/tex]

This concludes the detailed steps for simplifying the quotient and determining the values where it is undefined.
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