Chapter 5.3, Problem 79E

(a)

To determine

To find : the maximum and minimum point of the function

Answer to Problem 79E

The maximum points of the function are $\underset{\_}{\boxed{\left(\pi /3,1.25\right)\text{}\&\left(5\pi /3,1.25\right)}}$ radians.

The minimum point of the function are $\underset{\_}{\boxed{\left(0,1\right)\&\left(\pi ,-1\right)\text{}}}$ radians.

Explanation of Solution

Given information : Function $f\left(x\right)={\sin }^{2}x+\cos x$ ; Trigonometric Equation $2\sin x\cos x-\sin x=0$ ; $\left[0,2\pi \right)$

Concept Involved:

A maximum is a high point and a minimum is a low point over the given interval.

Graph:

  

Interpretation:

The graph shows, at $x=\pi /3\&5\pi /3$ radians the graph has the maximum value of 1.25 and at $x=0\&\pi$ radians the graph has the minimum value of $1\&-1$ respectively.

(b)

To determine

To find : all the solutions of the trigonometric equations in the given interval

Answer to Problem 79E

The solution to the given trigonometric equation are $\underset{\_}{\boxed{x=0,\pi /3,\pi ,\&5\pi /3}}$ radians.

Explanation of Solution

Given information : Function $f\left(x\right)={\sin }^{2}x+\cos x$ ; Trigonometric Equation $2\sin x\cos x-\sin x=0$ ; $\left[0,2\pi \right)$

Concept Involved:

Solution to a quadratic equation are the values of x that makes the equation TRUE.

To solve a trigonometric equation, use standard algebraic techniques (when possible) such as collecting like terms, extracting square roots, and factoring.

Our preliminary goal in solving a trigonometric equation is to isolate the trigonometric function on one side of the equation.

Calculation:

Factor the Greatest Common Factor of left side of the equation $2\sin x\cos x-\sin x=0$

  $\sin x\left(2\cos x-1\right)=0$

Using the zero factor property which states that if $a\cdot b=0$ then $a=0\left(or\right)b=0$ , we need to set each factor to zero.

  $\sin x=0$▶1^st equation

  $2\cos x-1=0$▶2^nd equation

Solving the 1^st equation and finding x values that makes it true in the interval $\left[0,2\pi \right)$

  $x={\sin }^{-1}\left(0\right)$

  $x=0,\pi$

Solving the 2^nd equation and finding x values that makes it true in the interval $\left[0,2\pi \right)$

• By adding 1 on both sides of the equation
• By simplifying on both sides of the equation
• By dividing 2 on both sides of the equation
• By simplifying fraction on both sides of the equation

  $\begin{array}{l}2\cos x-1=0\\ 2\cos x=1\\ \frac{2\cos x}{2}=\frac{1}{2}\\ \cos x=\frac{1}{2}\\ x={\cos }^{-1}\left(\frac{1}{2}\right)\\ x=\frac{\pi }{3},\frac{5\pi }{3}\end{array}$

Conclusion:

  $x=0,\frac{\pi }{3},\pi ,\&\frac{5\pi }{3}$ radians are the zero of the function and solution to the equation $2\sin x\cos x-\sin x=0$ in the interval $\left[0,2\pi \right)$