2024/G1/2: Difference between revisions

2.2 THE LIMIT OF A FUNCTION

Notes go here for 2.2... example:
${\displaystyle \lim _{z\to z_{0}}f(z)=f(z_{0})}$

2.3 CALCULATING LIMITS USING THE LIMIT LAWS

2.5 CONTINUITY

2.6 LIMITS AT INFINITY; HORIZONTAL ASYMPTOTES

2.7 DERIVATIVES AND RATES OF CHANGE

To find the Tangent Line we use ${\displaystyle \lim _{h\to 0}{\frac {f(x+h)-f(x)}{h}}}$
We later apply the points on which we want to find the slope. ${\displaystyle f(x)=x^{2}f'(x)=\lim _{h\to 0}{\frac {f(x+h)-f(x)}{h}}=\lim {h_{\to }0}{\frac {(x+h)^{2}-x^{2}}{h}}=\lim {h_{\to }0}{\frac {x^{2}+2xh+h^{2}-x^{2})}{h}}=\lim {h_{\to }0}{\frac {h^{2}+2xh}{h}}=\lim {h_{\to }0}{\frac {({\cancel {h}})(h+2x)}{\cancel {h}}}}$

2.8 THE DERIVATIVE AS A FUNCTION

${\displaystyle {\frac {d}{dx}}[c]=0}$
${\displaystyle {\frac {d}{dx}}[c\cdot f(x)]=c\cdot {\frac {d}{dx}}[f(x)]}$

${\displaystyle {\frac {d}{dx}}[f(x)\pm g(x)]={\frac {d}{dx}}[f(x)]\pm {\frac {d}{dx}}[g(x)]}$
${\displaystyle {\frac {d}{dx}}[x^{n}]=n\cdot x^{(n-1)}}$
${\displaystyle {\frac {d}{dx}}[a^{x}]=\ln(a)a^{x}}$
${\displaystyle {\frac {d}{dx}}[e^{x}]=e^{x}}$