Difference between revisions of "1963 AHSME Problems/Problem 40"
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then, <math>x+9-x+9+27=3(\sqrt[3]{x+9})(\sqrt[3]{9-x})(-3)</math> . by solving this, we get <math>-9=-9\sqrt[3]{9^2-x^2}</math> | then, <math>x+9-x+9+27=3(\sqrt[3]{x+9})(\sqrt[3]{9-x})(-3)</math> . by solving this, we get <math>-9=-9\sqrt[3]{9^2-x^2}</math> | ||
<math>x^2=80</math>. this gives the step what we had done in solution 1.The answer is <math>\boxed{\textbf{(C)}}</math>. | <math>x^2=80</math>. this gives the step what we had done in solution 1.The answer is <math>\boxed{\textbf{(C)}}</math>. | ||
+ | |||
+ | ==Solution 3== | ||
+ | Cubing both sides, we get | ||
+ | <cmath>x+9-3\sqrt[3]{(x+9)^2(x-9)}+3\sqrt[3]{(x+9)(x-9)^2}-x+9=27,</cmath>so <cmath>18-3\sqrt[3]{(x-9)(x+9)}(\sqrt[3]{x+9}-\sqrt[3]{x-9})=27\implies 3\sqrt[3]{x^2-81}=-3.</cmath> Dividing both sides by 3 and cubing, we find <math>x^2=80</math>, which is between <math>\boxed{(C)75\text{ and }85}</math>. | ||
+ | |||
+ | ~pfalcon | ||
+ | ==Solution 4== | ||
+ | We consider the formula <math>(a-b)^3 = a^3 - 3a^2b + 3ab^2 - b^3</math>. Factoring out <math>3ab</math>, and the commutative property gives <math>( | ||
+ | a^3 - b^3) - 3ab(a-b)</math>. Cubing both sides gives us | ||
+ | <cmath>(\sqrt[3]{x+9}-\sqrt[3]{x-9})^3=27</cmath> | ||
+ | Using our formula, we have | ||
+ | <cmath>18 - 9 \sqrt[3]{x^2 - 81} = 27</cmath> | ||
+ | Solving this gives <math>x^2 = 80</math>, therefore, the answer is <math>\boxed{\textbf{(C)}}</math>. | ||
+ | ~zixuan12 | ||
==See Also== | ==See Also== |
Latest revision as of 13:03, 26 March 2023
Problem
If is a number satisfying the equation , then is between:
Solution 1
Let and . Cubing these equations, we get and , so . The left-hand side factors as
However, from the given equation , we get . Then , so .
Squaring the equation , we get . Subtracting this equation from the equation , we get , so . But and , so , so . Cubing both sides, we get , so . The answer is .
Solution 2
i.e,
if the sum of three numbers is zero, then their sum of cubes is thrice the product of each number. then, . by solving this, we get . this gives the step what we had done in solution 1.The answer is .
Solution 3
Cubing both sides, we get so Dividing both sides by 3 and cubing, we find , which is between .
~pfalcon
Solution 4
We consider the formula . Factoring out , and the commutative property gives . Cubing both sides gives us Using our formula, we have Solving this gives , therefore, the answer is . ~zixuan12
See Also
1963 AHSC (Problems • Answer Key • Resources) | ||
Preceded by Problem 39 |
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