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1/\sqrt[3]{x+5}-\sqrt[3]{x} can be written as𝐶((𝑥+𝑎)𝑝1+(𝑥2+𝑎𝑥)𝑝2+𝑥𝑝3)
Jan 30, 2024
1/\sqrt[3]{x+5}-\sqrt[3]{x} can be written as𝐶((𝑥+𝑎)𝑝1+(𝑥2+𝑎𝑥)𝑝2+𝑥𝑝3)
1/(\sqrt[3]{x+5}-\sqrt[3]{x}) can be written as𝐶((𝑥+𝑎)𝑝1+(𝑥2+𝑎𝑥)𝑝2+𝑥𝑝3)
Generated Graph
Solution by Steps
step 1
To simplify the expression 1x+53x3 \frac{1}{\sqrt[3]{x+5}-\sqrt[3]{x}} , we will rationalize the denominator by multiplying the numerator and the denominator by the conjugate of the denominator
step 2
The conjugate of x+53x3 \sqrt[3]{x+5}-\sqrt[3]{x} is x+53+x3 \sqrt[3]{x+5}+\sqrt[3]{x}
step 3
Multiply the original expression by x+53+x3x+53+x3 \frac{\sqrt[3]{x+5}+\sqrt[3]{x}}{\sqrt[3]{x+5}+\sqrt[3]{x}}
step 4
The product in the denominator will be (x+53)2(x3)2 (\sqrt[3]{x+5})^2 - (\sqrt[3]{x})^2 due to the difference of squares
step 5
Simplify the denominator to (x+5)23x23 (x+5)^{\frac{2}{3}} - x^{\frac{2}{3}}
step 6
The simplified form of the expression is x+53+x3(x+5)23x23 \frac{\sqrt[3]{x+5}+\sqrt[3]{x}}{(x+5)^{\frac{2}{3}} - x^{\frac{2}{3}}}
Answer
x+53+x3(x+5)23x23 \frac{\sqrt[3]{x+5}+\sqrt[3]{x}}{(x+5)^{\frac{2}{3}} - x^{\frac{2}{3}}}
Key Concept
Rationalizing the Denominator
Explanation
To simplify a fraction with a radical in the denominator, we multiply by the conjugate of the denominator to eliminate the radical. This process is known as rationalizing the denominator.
1/(\sqrt[3]{x+5}-\sqrt[3]{x}) can be written as C\left(\left(x+a\right)^{p1}+\left(x^2+ax\right)^{p2}+x^{p3}\right)
Generated Graph
Solution by Steps
step 1
To simplify the expression 1x+53x3 \frac{1}{\sqrt[3]{x+5}-\sqrt[3]{x}} , we will rationalize the denominator
step 2
Multiply the numerator and the denominator by the conjugate of the denominator: (x+53+x3) (\sqrt[3]{x+5}+\sqrt[3]{x})
step 3
The product of the conjugates (x+53x3)(x+53+x3) (\sqrt[3]{x+5}-\sqrt[3]{x})(\sqrt[3]{x+5}+\sqrt[3]{x}) results in the difference of cubes: (x+5)x (x+5) - x
step 4
Simplify the difference to get 5 in the denominator
step 5
The numerator becomes (x+53+x3) (\sqrt[3]{x+5}+\sqrt[3]{x}) after multiplying with the conjugate
step 6
The simplified expression is x+53+x35 \frac{\sqrt[3]{x+5}+\sqrt[3]{x}}{5}
Answer
x+53+x35 \frac{\sqrt[3]{x+5}+\sqrt[3]{x}}{5}
Key Concept
Rationalizing the Denominator
Explanation
To simplify a fraction with a radical in the denominator, we multiply the numerator and denominator by the conjugate of the denominator to eliminate the radical. This process is known as rationalizing the denominator.
1/(\sqrt[3]{x+5}-\sqrt[3]{x}) can be written as C\left(\left(x+a\right)^{p1}+\left(x^2+ax\right)^{p2}+x^{p3}\right) where C=?P1=? P2=?p3=?
Generated Graph
Solution by Steps
step 1
To rationalize the denominator, we multiply the numerator and denominator by the conjugate of the denominator
step 2
The conjugate of (x+5)13x13(x + 5)^{\frac{1}{3}} - x^{\frac{1}{3}} is (x+5)13+x13(x + 5)^{\frac{1}{3}} + x^{\frac{1}{3}}
step 3
Multiplying the numerator and denominator by the conjugate, we get 1((x+5)13x13)(x+5)13+x13(x+5)13+x13\frac{1}{((x + 5)^{\frac{1}{3}} - x^{\frac{1}{3}})} \cdot \frac{(x + 5)^{\frac{1}{3}} + x^{\frac{1}{3}}}{(x + 5)^{\frac{1}{3}} + x^{\frac{1}{3}}}
step 4
Simplifying the denominator using the difference of cubes formula, we get (x+5)x(x + 5) - x
step 5
The denominator simplifies to 5, and the numerator is the conjugate (x+5)13+x13(x + 5)^{\frac{1}{3}} + x^{\frac{1}{3}}
step 6
The simplified expression is (x+5)13+x135\frac{(x + 5)^{\frac{1}{3}} + x^{\frac{1}{3}}}{5}
Answer
(x+5)13+x135\frac{(x + 5)^{\frac{1}{3}} + x^{\frac{1}{3}}}{5}
Key Concept
Rationalizing the Denominator
Explanation
To simplify a fraction with a radical in the denominator, we multiply by the conjugate to rationalize it. This process removes the radical from the denominator.
What is the value of C in the expression 1/(\sqrt[3]{x+5}-\sqrt[3]{x}) when it is written as C\left((x+a)^{p1}+(x^2+ax)^{p2}+x^{p3}\right)?
Generated Graph
Solution by Steps
step 1
To find the value of C C in the expression 1x+53x3 \frac{1}{\sqrt[3]{x+5}-\sqrt[3]{x}} , we need to rationalize the denominator
step 2
Multiply the numerator and denominator by the conjugate of the denominator: x+53+x3(x+53)2(x+53)(x3)+(x3)2 \frac{\sqrt[3]{x+5}+\sqrt[3]{x}}{(\sqrt[3]{x+5})^2 - (\sqrt[3]{x+5})(\sqrt[3]{x}) + (\sqrt[3]{x})^2}
step 3
Simplify the denominator using the identity a3b3=(ab)(a2+ab+b2) a^3 - b^3 = (a - b)(a^2 + ab + b^2) to get x+53+x3(x+5)x \frac{\sqrt[3]{x+5}+\sqrt[3]{x}}{(x+5) - x}
step 4
Simplify further to obtain x+53+x35 \frac{\sqrt[3]{x+5}+\sqrt[3]{x}}{5}
step 5
The expression can now be written as C((x+a)p1+(x2+ax)p2+xp3) C \left( (x+a)^{p1} + (x^2+ax)^{p2} + x^{p3} \right) where C=15 C = \frac{1}{5} , p1=13 p1 = \frac{1}{3} , p2=0 p2 = 0 , and p3=13 p3 = \frac{1}{3}
Answer
C=15 C = \frac{1}{5} , p1=13 p1 = \frac{1}{3} , p2=0 p2 = 0 , p3=13 p3 = \frac{1}{3}
Key Concept
Rationalizing the denominator of a fraction involving cube roots
Explanation
To simplify the given expression, we multiplied by the conjugate of the denominator to eliminate the cube roots, which allowed us to express the result in the desired form with constants C C , p1 p1 , p2 p2 , and p3 p3 .
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