Question
Use the rules of exponents to simplify the following expression. Assume that all variables are nonzero.
left parenthesis StartFraction x Superscript negative 5 Baseline y Over z EndFraction right parenthesis Superscript negative 2
Question content area bottom
Part 1
left parenthesis StartFraction x Superscript negative 5 Baseline y Over z EndFraction right parenthesis Superscript negative 2
equals
enter your response here
(Simplify your answer. Use integers or fractions for any numbers in the expression. Use positive exponents only.)
left parenthesis StartFraction x Superscript negative 5 Baseline y Over z EndFraction right parenthesis Superscript negative 2
Question content area bottom
Part 1
left parenthesis StartFraction x Superscript negative 5 Baseline y Over z EndFraction right parenthesis Superscript negative 2
equals
enter your response here
(Simplify your answer. Use integers or fractions for any numbers in the expression. Use positive exponents only.)
Answers
GPT-4o mini
To simplify the expression \(\left(\frac{x^{-5}y}{z}\right)^{-2}\), we can apply the rules of exponents step by step.
1. Apply the power of a quotient rule \((a/b)^{-m} = \frac{b^m}{a^m}\):
\[
\left(\frac{x^{-5}y}{z}\right)^{-2} = \frac{z^{2}}{(x^{-5}y)^{2}}
\]
2. Now simplify the numerator:
\[
z^{2} \text{ remains unchanged.}
\]
3. Now simplify the denominator \((x^{-5}y)^{2}\) using the power of a product rule \((ab)^m = a^m b^m\):
\[
(x^{-5}y)^{2} = (x^{-5})^{2}(y)^{2} = x^{-10}y^{2}
\]
4. Now substitute back into the expression:
\[
\frac{z^{2}}{x^{-10}y^{2}}
\]
5. Now apply the rule for negative exponents \(a^{-m} = \frac{1}{a^{m}}\):
\[
\frac{z^{2}}{x^{-10}y^{2}} = \frac{z^{2}y^{2}}{x^{-10}} = z^{2}y^{2}x^{10}
\]
6. Finally, we will write the expression with positive exponents:
\[
z^{2}y^{2}x^{10}
\]
So the simplified expression is:
\[
x^{10}y^{2}z^{2}
\]
1. Apply the power of a quotient rule \((a/b)^{-m} = \frac{b^m}{a^m}\):
\[
\left(\frac{x^{-5}y}{z}\right)^{-2} = \frac{z^{2}}{(x^{-5}y)^{2}}
\]
2. Now simplify the numerator:
\[
z^{2} \text{ remains unchanged.}
\]
3. Now simplify the denominator \((x^{-5}y)^{2}\) using the power of a product rule \((ab)^m = a^m b^m\):
\[
(x^{-5}y)^{2} = (x^{-5})^{2}(y)^{2} = x^{-10}y^{2}
\]
4. Now substitute back into the expression:
\[
\frac{z^{2}}{x^{-10}y^{2}}
\]
5. Now apply the rule for negative exponents \(a^{-m} = \frac{1}{a^{m}}\):
\[
\frac{z^{2}}{x^{-10}y^{2}} = \frac{z^{2}y^{2}}{x^{-10}} = z^{2}y^{2}x^{10}
\]
6. Finally, we will write the expression with positive exponents:
\[
z^{2}y^{2}x^{10}
\]
So the simplified expression is:
\[
x^{10}y^{2}z^{2}
\]