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Chapter 4: Problem 84

Find the absolute value of the radian measure of the angle that the second hand of a clock moves through in the given time. 35 seconds

Short Answer

Expert verified
The absolute value of the radian measure that the second hand of a clock moves through in 35 seconds is \(\frac{7\pi}{6}\) radians.

Step by step solution

01

Determine the relationship between time and radian measures

Knowing that there are \(2\pi\) radians in a full revolution and a clock's full revolution corresponds to 60 seconds, the relationship of time and angle can be referred as \(2\pi\) radians = 60 seconds.
02

Formulate the proportion

In order to calculate the radian measure for 35 seconds, create a proportion. Let \(x\) be the radian measure. Then the proportion is \(\frac{2\pi}{60} = \frac{x}{35}\)
03

Solve the proportion for x

Cross-multiply and solve for \(x\): \(x = \frac{35*2\pi}{60}\)
04

Simplify the fraction

Simplify the fraction for \(x\) by dividing the numerator and the denominator by 5, this gives: \(x = \frac{7\pi}{6}\)
05

Determine the absolute value

The absolute value of a positive number is the number itself. Therefore, the absolute value of radian measure |\(x\)| is | \(\frac{7\pi}{6}\)|.

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Most popular questions from this chapter

Graph \(f, g,\) and \(h\) in the same rectangular coordinate system for \(0 \leq x \leq 2 \pi .\) Obtain the graph of h by adding or subtracting the corresponding \(y\) -coordinates on the graphs of \(f\) and \(g\) $$f(x)=\sin x, g(x)=\cos 2 x, h(x)=(f-g)(x)$$

Determine whether each statement makes sense or does not make sense, and explain your reasoning. Using radian measure, I can always find a positive angle less than \(2 \pi\) coterminal with a given angle by adding or subtracting \(2 \pi\)

Use a graphing utility to graph each pair of functions in the same viewing rectangle. Use a viewing rectangle that shows the graphs for at least two periods. $$y=0.8 \sin \frac{x}{2} \text { and } y=0.8 \csc \frac{x}{2}$$

Graph one period of each function. $$y=\left|3 \cos \frac{2 x}{3}\right|$$

Use the keys on your calculator or graphing utility for converting an angle in degrees, minutes, and seconds \(\left(D^{\circ} M^{\prime} S^{\prime \prime}\right)\) into decimal form, and vice versa. Convert each angle to \(D^{\circ} M^{\prime} S^{\prime \prime}\) form. Round your answer to the nearest second. $$30.42^{\circ}$$
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