Find the equation of the tangent line through the function f(x)=3x$e^{5x-5} $ at the point on the curve where x=1
Find the equation of the tangent line through the function f(x)=3xe^(5x-5) at the point on the curve where x=1.
step by step, showing all rules used
show as much work as possible
i got this wrong on my exam and want to learn how to do it
Answer
Answers can be viewed only if
- The questioner was satisfied and accepted the answer, or
- The answer was disputed, but the judge evaluated it as 100% correct.
1 Attachment
Kav10
1.7K
The answer is accepted.
Join Matchmaticians Affiliate Marketing
Program to earn up to 50% commission on every question your affiliated users ask or answer.
- answered
- 417 views
- $5.00
Related Questions
- What is this question asking and how do you solve it?
- Prove that $\lim_{n\rightarrow \infty} \int_{[0,1]^n}\frac{|x|}{\sqrt{n}}=\frac{1}{\sqrt{3}}$
- Integrate $\int \frac{1}{x^2+x+1}dx$
- Integral of trig functions
- Applications of Integration [Calculus 1 and 2]
- True-False real analysis questions
- Is $\sum_{i=1}^{\infty}\arctan (\frac{n+1}{n^2+5})$ convergent or divergent?
- Calculus Integral Questins
What does that t\1 over e mean in the middle of the page???
Kav10: Could you please respond to Scuentiest134 comment above?
The T]1-3 is the coordination of the tangent point. At x=1 and y=3 is the point that the line is tangent to the curve.