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Chapter 5: Problem 45

Use a calculator to find each root or power. Give as many digits as your display shows. $$\pi^{-3}$$

Short Answer

Expert verified
The value of \(\pi^{-3}\) is approximately 0.03218.

Step by step solution

01

Understand the expression

The expression you need to evaluate is \(\pi^{-3}\). This represents \(\pi\), raised to the power of \(-3\). \(\pi\) is a mathematical constant approximately equal to 3.14159, and the negative exponent suggests taking the reciprocal.
02

Calculate the reciprocal

To handle \(\pi^{-3}\), first calculate the reciprocal raised to a positive power: \(\frac{1}{\pi^{3}}\). This means you need to compute \(\pi^{3}\) first.
03

Calculate \(\pi^3\)

Use the calculator to raise \(\pi\) to the third power. Enter 3.14159 into your calculator and raise it to the power of 3, which should give you approximately 31.00627.
04

Find \(\pi^{-3}\)

Now compute the reciprocal of \(\pi^3\). Take the number you found in the previous step, 31.00627, and find its reciprocal. Using the calculator, enter 1 divided by 31.00627, which results in approximately 0.03218.

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Negative Exponents
Seeing negative exponents in math can be puzzling at first, but they have a straightforward concept behind them. A negative exponent means you take the reciprocal of the base number raised to the positive version of the exponent. In simpler words, if you have a base with a negative exponent, you flip it to become a fraction:
  • Convert the base and make the exponent positive by placing the base in the denominator under 1.
  • For example, in the expression \( a^{-n} \), it becomes \( \frac{1}{a^n} \).
  • This method helps in simplifying expressions where using negative exponents occurs.
By understanding and visualizing it as a two-step process—first flipping and then calculating—the task becomes much more manageable.
Reciprocal
The term "reciprocal" comes into play frequently with negative exponents. Understanding the reciprocal of a number is vital for simplifying expressions like \( \pi^{-3} \). Here's what you need to know to understand reciprocals better:
  • The reciprocal of a number is essentially one divided by that number.
  • For example, the reciprocal of 5 is \( \frac{1}{5} \).
  • If the number is already in fraction form, you simply swap the numerator and the denominator.
  • So for a fraction \( \frac{a}{b} \), the reciprocal is \( \frac{b}{a} \).
Reciprocals are helpful because they allow us to rewrite expressions with negative exponents into a form that is easier to calculate.
Power Function Calculations
Power functions are central to understanding how exponents work, especially when it comes to calculations involving constants like \(\pi\). Here's how it usually works:
  • To calculate a power, such as \(\pi^3\), you multiply the base (\(\pi\)) by itself three times.
  • Using a calculator helps significantly to ensure precision, as powers can involve many decimal places.
  • In the case of \(\pi^3\), you would input 3.14159 into the calculator and raise it to the third power.
  • This operation results in approximately 31.00627, illustrating the magic of power functions.
Power function calculations serve as a fundamental skill set, providing an essential tool for various components of algebra and calculus. Understanding how to perform these operations ensures you can tackle expressions like \(\pi^{-3}\) confidently.

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Most popular questions from this chapter

Solve each equation and inequality. (These types of equations and inequalities occur in calculus.) (a) \(\frac{\left(x^{2}-1\right)(1)-(x+1)(2 x)}{\left(x^{2}-1\right)^{2}}=0\) (b) \(\frac{\left(x^{2}-1\right)(1)-(x+1)(2 x)}{\left(x^{2}-1\right)^{2}}>0\)

Find all complex solutions for each equation by hand. $$4+\frac{7}{x}=-\frac{1}{x^{2}}$$

CONCEPT CHECK In some cases, it is possible to solve a rational inequality simply by deciding what sign the numerator and the denominator must have and then using the rules for quotients of positive and negative numbers to determine the solution set. For example, consider the rational inequality $$ \frac{1}{x^{2}+1}>0 $$ The numerator of the rational expression, 1, is positive, and the denominator, \(x^{2}+1,\) must always be positive because it is the sum of a nonnegative number, \(x^{2},\) and a positive number, 1. Therefore, the rational expression is the quotient of two positive numbers, which is positive. Because the inequality requires that the rational expression be greater than \(0,\) and this will always be true, the solution set is \((-\infty, \infty)\) Use similar reasoning to solve each inequality. $$\frac{x^{4}+2}{-6} \leq 0$$

Assume that the constant of variation is positive. Let \(y\) be inversely proportional to \(x\). If \(x\) doubles, what happens to \(y ?\)

Use a calculator to graph rational function in the window indicated. Then (a) give the \(x\) - and y-intercepts, (b) explain why there are no vertical asymptotes, (c) give the equation of the oblique asymptote, and (d) give the domain and range. $$f(x)=\frac{4 x^{3}+8 x^{2}-36 x-72}{2 x^{2}-x+6} ;[-5,5] \text { by }[-20,15]$$
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