Derivatives
Limits: difference quotients and continuity show up directly in the derivative definition.
Learning goals
- Define the derivative as a limit; interpret as slope and instantaneous rate.
- Differentiate powers, exponentials, logs, trig; use product, quotient, chain rules.
- Implicit differentiation; related rates as a later bridge to applications unit.
- Use linear approximation $L(x)=f(a)+f'(a)(x-a)$ near a base point $a$.
Concept sheet
$$ f'(a) = \lim_{h \to 0} \frac{f(a+h) - f(a)}{h} \quad\text{(if the limit exists)} $$
Power rule: $\dfrac{d}{dx}\big(x^n\big) = n x^{n-1}$ for integer $n$ (extend to rationals as your course allows).
Exponential / log: $\dfrac{d}{dx} e^x = e^x$; $\dfrac{d}{dx} \ln x = \dfrac{1}{x}$ for $x \gt 0$.
Trig: $(\sin x)' = \cos x$, $(\cos x)' = -\sin x$.
Combination rules ($u$ and $v$ are functions of $x$)
Same rules with $f,g$ notation: e.g. product is $(fg)'$ with $u=f$, $v=g$.
- Sum / difference: $(u \pm v)' = u' \pm v'$
- Constant multiple: $(c\,u)' = c\,u'$ for constant $c$
- Product rule: $(uv)' = u\,v' + v\,u'$ (same as $uv' + vu'$)
- Quotient rule: $\displaystyle \left(\frac{u}{v}\right)' = \frac{u'\,v - u\,v'}{v^{2}}$ (for $v \neq 0$)
- Chain rule: if $y = u(v(x))$, then $\displaystyle \frac{dy}{dx} = \frac{du}{dv}\cdot\frac{dv}{dx}$. With primes: $\big(u(v)\big)' = u'(v)\,v'$
Implicit (extra): differentiate both sides with respect to $x$, treating $y=y(x)$; collect $y'$.
Worked patterns
Pattern A — chain on chain (“peeling”)
$\dfrac{d}{dx} \sin(3x^2+1) = \cos(3x^2+1)\cdot 6x$.
Pattern B — product + chain
$\dfrac{d}{dx}\big(x^2 e^{-x}\big) = 2x\,e^{-x} + x^2(-e^{-x}) = e^{-x}(2x-x^2)$.
Pattern C — logarithmic differentiation (when handy)
For $y = x^x$ (Calc 1 extra): $\ln y = x\ln x$, differentiate: $\dfrac{y'}{y} = \ln x + 1$, so $y' = x^x(\ln x + 1)$.
Practice
Original drills — use Check when available, then Show solution. A quick celebration plays on correct auto-checks (respects reduced motion).
Homework / practice
Syllabus order §2.7–§3.8 (before related rates).
| Section | Link | Focus |
|---|---|---|
| 2.7 — Derivatives and rates of change | Open PDF | Limit definition of derivative, interpretations |
| 2.8 — The derivative as a function | Open PDF | $f'$, differentiability vs continuity |
| Review 1 (pack) | Open PDF | Exam I: Appendix J.1 through §2.8 (per syllabus) |
| 3.1 — Polynomials & exponentials | Open PDF | Power rule, $e^x$ |
| 3.2 — Product & quotient rules | Open PDF | Combinations of elementary functions |
| 3.3 — Trigonometric derivatives | Open PDF | Sine, cosine, etc. |
| 3.4 — Chain rule | Open PDF | Composition structure |
| 3.5 — Implicit differentiation | Open PDF | $\dfrac{dy}{dx}$ from implicit $F(x,y)=0$ |
| 3.6 — Logarithmic differentiation | Open PDF | $\ln x$, $\log_a x$, logs of products |
| 3.7 — Natural & social sciences | Open PDF | WebAssign export title truncated in filename |
| 3.8 — Exponential growth & decay | Open PDF | WebAssign export title truncated in filename |
Mistakes & checks
- Chain rule: multiply by inner derivative — easy to drop.
- Quotient rule sign: “low d-high minus high d-low” — verify with product rule rewrite.
- Differentiable at $a$ $\Rightarrow$ continuous at $a$; converse is false (e.g. $|x|$ at $0$).
Slide appendix (optional)
Optional condensed slide PDFs — see materials/README.md.
Quiz mode
Homework PDF quiz: each card links to the same WebAssign export filenames as the semester map (materials/). A session shows 20 shuffled cards from 45 PDF-linked slots; exact problem wording stays in the PDF unless you merge transcripts per quiz/transcripts/README.md. Regenerate: python3 scripts/gen_hw_quiz.py.