C h a p t e r 3 S e c t i o n 2 {\displaystyle \mathbf {Chapter3Section2} } d d x [ c ] = 0 {\displaystyle {\frac {d}{dx}}[c]=0} d d x [ c ⋅ f ( x ) ] = c ⋅ d d x [ f ( x ) ] {\displaystyle {\frac {d}{dx}}[c\cdot f(x)]=c\cdot {\frac {d}{dx}}[f(x)]} d d x [ f ( x ) ± g ( x ) ] = d d x [ f ( x ) ] ± d d x [ g ( x ) ] {\displaystyle {\frac {d}{dx}}[f(x)\pm g(x)]={\frac {d}{dx}}[f(x)]\pm {\frac {d}{dx}}[g(x)]} d d x [ a x ] = ln ( a ) a x {\displaystyle {\frac {d}{dx}}[a^{x}]=\ln(a)a^{x}} d d x [ e x ] = e x {\displaystyle {\frac {d}{dx}}[e^{x}]=e^{x}} P o w e r R u l e {\displaystyle \color {Blue}Power\,Rule} d d x [ x n ] = n ⋅ x n − 1 {\displaystyle {\frac {d}{dx}}[x^{n}]=n\cdot x^{n}-1} P r o d u c t R u l e {\displaystyle \color {Red}Product\,Rule} d d x [ f ⋅ g ] = d d x [ f ] ⋅ g + d d x [ g ] ⋅ f {\displaystyle {\frac {d}{dx}}[f\cdot {g}]={\frac {d}{dx}}[f]\cdot {g}+{\frac {d}{dx}}[g]\cdot {f}} Q u o t i e n t R u l e {\displaystyle \color {Green}Quotient\,Rule} d d x [ f g ] = d d x [ f ] ⋅ g − d d x [ g ] ⋅ f g 2 {\displaystyle {\frac {d}{dx}}[{\frac {f}{g}}]={\frac {{\frac {d}{dx}}[f]\cdot {g}-{\frac {d}{dx}}[g]\cdot {f}}{g^{2}}}} E x .1 {\displaystyle \mathbf {Ex.1} } i f f ( x ) = x ⋅ e x {\displaystyle if\,f(x)=x\cdot {e^{x}}} f ′ ( x ) = 1 ⋅ e x + x ⋅ e x {\displaystyle f^{\prime }(x)=1\cdot {e^{x}}+x\cdot {e^{x}}} E x .2 {\displaystyle \mathbf {Ex.2} } i f f ( t ) = t ( a + b t ) {\displaystyle if\,f(t)={\sqrt {t}}(a+bt)} f ′ ( t ) = 1 2 t ( a + b t ) + t t ( b ) {\displaystyle f^{\prime }(t)={\frac {1}{2{\sqrt {t}}}}(a+bt)+t{\sqrt {t}}(b)} E x .3 {\displaystyle \mathbf {Ex.3} } i f f ( x ) = x ⋅ g ( x ) {\displaystyle if\,f(x)={\sqrt {x}}\cdot {g(x)}} g ( 4 ) = 2 {\displaystyle g(4)=2} g ′ ( 4 ) = 3 {\displaystyle g^{\prime }(4)=3} f ′ ( x ) = 1 2 x ⋅ g ( x ) + x ⋅ g ′ ( x ) {\displaystyle f^{\prime }(x)={\frac {1}{2{\sqrt {x}}}}\cdot {g(x)}+{\sqrt {x}}\cdot {g^{\prime }(x)}} E x .4 {\displaystyle \mathbf {Ex.4} } y = x 2 + x − 2 x 3 + 6 {\displaystyle y={\frac {x^{2}+x-2}{x^{3}+6}}} d d x = y ′ = ( 2 x + 1 ) ( x 3 − 6 ) − ( x 2 + x − 2 ) ( 3 x 2 ) ( x 3 + 6 ) 2 {\displaystyle {\frac {d}{dx}}=y^{\prime }={\frac {(2x+1)(x^{3}-6)-(x^{2}+x-2)(3x^{2})}{(x^{3}+6)^{2}}}} = ( 2 x 4 + x 4 + x 3 + 12 x + 6 − [ 3 x 4 + 3 x 2 − 6 x 2 ] ( x 3 + 6 ) 2 {\displaystyle ={\frac {(2x^{4}+x^{4}+x^{3}+12x+6-[3x^{4}+3x^{2}-6x^{2}]}{(x^{3}+6)^{2}}}} = − x 4 − 2 x 3 + 6 x 2 + 12 x + 6 ( x 3 + 6 ) 2 {\displaystyle ={\frac {-x^{4}-2x^{3}+6x^{2}+12x+6}{(x^{3}+6)^{2}}}}