the terminal side of an angle with measure θ in standard position passes through the given point. sketch the reference triangle. evaluate sin θ, cos θ, and tan θ. simplify all radicals.
1. p(5, 12)
2. p(-5, 12)
3. p(-5, -12)
4. p(5, -12)
5. p(-6, -8)
6. p(6, -8)
7. p(6, 8)
8. p(-6, 8)
9. p(10, -24)
10. p(5, 10)
11. p(-6, 4)
12. p(-12, -10)
trigonometric functions 15

Question

Accepted Answer

1. **For point $P(5,12)$**:
   - First, find the distance $r$ from the origin $(0,0)$ to the point $(x,y)=(5,12)$ using the formula $r = \sqrt{x^{2}+y^{2}}$.
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{5^{2}+12^{2}}=\sqrt{25 + 144}=\sqrt{169}=13$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{12}{13}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{5}{13}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{12}{5}$
     - # Answer:
       $\sin\theta=\frac{12}{13},\cos\theta=\frac{5}{13},\tan\theta=\frac{12}{5}$
2. **For point $P(- 5,12)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{(-5)^{2}+12^{2}}=\sqrt{25 + 144}=\sqrt{169}=13$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{12}{13}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{-5}{13}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{12}{-5}=-\frac{12}{5}$
     - # Answer:
       $\sin\theta=\frac{12}{13},\cos\theta=-\frac{5}{13},\tan\theta=-\frac{12}{5}$
3. **For point $P(-5,-12)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{(-5)^{2}+(-12)^{2}}=\sqrt{25 + 144}=\sqrt{169}=13$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{-12}{13}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{-5}{13}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{-12}{-5}=\frac{12}{5}$
     - # Answer:
       $\sin\theta=-\frac{12}{13},\cos\theta=-\frac{5}{13},\tan\theta=\frac{12}{5}$
4. **For point $P(5,-12)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{5^{2}+(-12)^{2}}=\sqrt{25 + 144}=\sqrt{169}=13$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{-12}{13}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{5}{13}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{-12}{5}=-\frac{12}{5}$
     - # Answer:
       $\sin\theta=-\frac{12}{13},\cos\theta=\frac{5}{13},\tan\theta=-\frac{12}{5}$
5. **For point $P(-6,-8)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{(-6)^{2}+(-8)^{2}}=\sqrt{36 + 64}=\sqrt{100}=10$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{-8}{10}=-\frac{4}{5}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{-6}{10}=-\frac{3}{5}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{-8}{-6}=\frac{4}{3}$
     - # Answer:
       $\sin\theta=-\frac{4}{5},\cos\theta=-\frac{3}{5},\tan\theta=\frac{4}{3}$
6. **For point $P(6,-8)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{6^{2}+(-8)^{2}}=\sqrt{36 + 64}=\sqrt{100}=10$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{-8}{10}=-\frac{4}{5}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{6}{10}=\frac{3}{5}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{-8}{6}=-\frac{4}{3}$
     - # Answer:
       $\sin\theta=-\frac{4}{5},\cos\theta=\frac{3}{5},\tan\theta=-\frac{4}{3}$
7. **For point $P(6,8)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{6^{2}+8^{2}}=\sqrt{36 + 64}=\sqrt{100}=10$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{8}{10}=\frac{4}{5}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{6}{10}=\frac{3}{5}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{8}{6}=\frac{4}{3}$
     - # Answer:
       $\sin\theta=\frac{4}{5},\cos\theta=\frac{3}{5},\tan\theta=\frac{4}{3}$
8. **For point $P(-6,8)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{(-6)^{2}+8^{2}}=\sqrt{36 + 64}=\sqrt{100}=10$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{8}{10}=\frac{4}{5}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{-6}{10}=-\frac{3}{5}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{8}{-6}=-\frac{4}{3}$
     - # Answer:
       $\sin\theta=\frac{4}{5},\cos\theta=-\frac{3}{5},\tan\theta=-\frac{4}{3}$
9. **For point $P(10,-24)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{10^{2}+(-24)^{2}}=\sqrt{100 + 576}=\sqrt{676}=26$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{-24}{26}=-\frac{12}{13}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{10}{26}=\frac{5}{13}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{-24}{10}=-\frac{12}{5}$
     - # Answer:
       $\sin\theta=-\frac{12}{13},\cos\theta=\frac{5}{13},\tan\theta=-\frac{12}{5}$
10. **For point $P(5,10)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{5^{2}+10^{2}}=\sqrt{25 + 100}=\sqrt{125}=5\sqrt{5}$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{10}{5\sqrt{5}}=\frac{2\sqrt{5}}{5}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{5}{5\sqrt{5}}=\frac{\sqrt{5}}{5}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{10}{5}=2$
     - # Answer:
       $\sin\theta=\frac{2\sqrt{5}}{5},\cos\theta=\frac{\sqrt{5}}{5},\tan\theta = 2$
11. **For point $P(-6,4)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{(-6)^{2}+4^{2}}=\sqrt{36 + 16}=\sqrt{52}=2\sqrt{13}$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{4}{2\sqrt{13}}=\frac{2\sqrt{13}}{13}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{-6}{2\sqrt{13}}=-\frac{3\sqrt{13}}{13}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{4}{-6}=-\frac{2}{3}$
     - # Answer:
       $\sin\theta=\frac{2\sqrt{13}}{13},\cos\theta=-\frac{3\sqrt{13}}{13},\tan\theta=-\frac{2}{3}$
12. **For point $P(-12,-10)$**:
     - # Explanation:
       ## Step1: Calculate the value of $r$
       $r=\sqrt{(-12)^{2}+(-10)^{2}}=\sqrt{144 + 100}=\sqrt{244}=2\sqrt{61}$
       ## Step2: Calculate $\sin\theta$
       $\sin\theta=\frac{y}{r}=\frac{-10}{2\sqrt{61}}=-\frac{5\sqrt{61}}{61}$
       ## Step3: Calculate $\cos\theta$
       $\cos\theta=\frac{x}{r}=\frac{-12}{2\sqrt{61}}=-\frac{6\sqrt{61}}{61}$
       ## Step4: Calculate $\tan\theta$
       $\tan\theta=\frac{y}{x}=\frac{-10}{-12}=\frac{5}{6}$
     - # Answer:
       $\sin\theta=-\frac{5\sqrt{61}}{61},\cos\theta=-\frac{6\sqrt{61}}{61},\tan\theta=\frac{5}{6}$

QUESTION IMAGE

Question

Explanation:

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Answer:

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)

Step1: Calculate the value of \(r\)

Step2: Calculate \(\sin\theta\)

Step3: Calculate \(\cos\theta\)

Step4: Calculate \(\tan\theta\)