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#50, find the solutions of the equation in the interval [-2pi, 2pi]. Use a graphing utility to verify your results.

#50, find the solutions of the equation in the interval [-2pi, 2pi]. Use a graphing-example-1
User FreeZey
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1 Answer

22 votes
22 votes

Question 50.

Given:

cot x = 1

Let's find the solutions of the given equation in the interval: [-2π, 2π].

To solve for the solutions, apply the following steps:

• Step 1.

Take the inverse cotangent of both sides:


\begin{gathered} x=\cot ^(-1)(1) \\ \\ x=(\pi)/(4) \end{gathered}

This function is positive in the first and third quadrants.

• Step 2.

To find the next solution add π to the first solution:


\begin{gathered} x=(\pi)/(4)+\pi \\ \\ x=(\pi+4\pi)/(4) \\ \\ x=(5\pi)/(4) \end{gathered}

• Step 3.

Find the period of cotx:


(\pi)/(|b|)=(\pi)/(|1|)=(\pi)/(1)=\pi

The period of the cot function will be:


x=(\pi)/(4)+\pi n,\text{ for any value of n.}

Substitute -2 for n and solve:


\begin{gathered} x=(\pi)/(4)+(-2\pi) \\ \\ x=(\pi)/(4)-2\pi \\ \\ x=(\pi-8\pi)/(4) \\ \\ x=-(7\pi)/(4) \end{gathered}

Substitute -1 for n:


\begin{gathered} x=(\pi)/(4)+\pi n \\ \\ x=(\pi)/(4)+(-1\pi) \\ \\ x=(\pi)/(4)-\pi \\ \\ x=(\pi-4\pi)/(4) \\ \\ x=-(3\pi)/(4) \end{gathered}

Substitute 0 for n:


\begin{gathered} x=(\pi)/(4)+\pi n \\ \\ x=(\pi)/(4)+0 \\ \\ x=(\pi)/(4) \end{gathered}

Substitute 1 for n:


\begin{gathered} x=(\pi)/(4)+\pi(1) \\ \\ x=(5)/(4) \end{gathered}

Therefore, the solutions of the equation in the interval are:


x=-(7\pi)/(4),-(3\pi)/(4),(\pi)/(4),(5\pi)/(4)

User Antigp
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