3. (3 points) find k so that the following function is continuous on any interval\nf(x)=\begin{cases}kx^{2}-7…

3. (3 points) find k so that the following function is continuous on any interval\nf(x)=\begin{cases}kx^{2}-7&\text{for }x < 3\\kx + 5&\text{for }xgeq3end{cases}\nfully justify your answer.
Answer
Explanation:
Step1: Recall continuity condition
For a function to be continuous at $x = a$, $\lim_{x\rightarrow a^{-}}f(x)=\lim_{x\rightarrow a^{+}}f(x)=f(a)$. Here $a = 3$. So we need $\lim_{x\rightarrow 3^{-}}(kx^{2}-7)=\lim_{x\rightarrow 3^{+}}(kx + 5)$.
Step2: Calculate left - hand limit
$\lim_{x\rightarrow 3^{-}}(kx^{2}-7)=k(3)^{2}-7=9k - 7$.
Step3: Calculate right - hand limit
$\lim_{x\rightarrow 3^{+}}(kx + 5)=k(3)+5=3k + 5$.
Step4: Set left - hand and right - hand limits equal
Set $9k-7 = 3k + 5$. Subtract $3k$ from both sides: $9k-3k-7=3k-3k + 5$, which simplifies to $6k-7 = 5$. Add 7 to both sides: $6k-7 + 7=5 + 7$, getting $6k=12$. Divide both sides by 6: $k=\frac{12}{6}=2$.
Answer:
$k = 2$