[egin{aligned}
1.&f(x)=C,f'(x)=0\
2.&f(x)=x^n,f'(x)=nx^{n-1}\
3.&f(x)=a^x,f'(x)=ln a imes a^x\
4.&f(x)=e^x,f'(x)=e^x\
5.&f(x)=log_ax,f'(x)=frac{1}{x imes ln a}\
&(f(x)=ln x,f'(x)=frac{1}{x})\
6.&f(x)=sin x,f'(x)=cos x\
7.&f(x)=cos x,f'(x)=-sin x\
8.&f(x)=tan x,f'(x)=frac{1}{cos^2x}\
9.&f(x)=cot x,f'(x)=-frac{1}{sin^2x}\
10.&f(x)=g[h(x)],f'(x)=g'[h(x)]h'(x)\
11.&f(x)=g(x)h(x),f'(x)=g'(x)h(x)+g(x)h'(x)\
12.&f(x)=frac{g(x)}{h(x)},f'(x)=frac{[g'(x)h(x)-g(x)h'(x)]}{h^2(x)}\
end{aligned}]

[egin{aligned}
1.&int k dx=kx+C\
2.&int k^mu dx=frac{x^{mu +1}}{mu +1}+C (mu
ot= -1)\
3.&intfrac{dx}{x}=ln|x|+C\
4.&intfrac{dx}{1+x^2}=arctan x+C\
5.&intfrac{dx}{sqrt{1+x^2}}=arcsin x+C\
6.&int cos x dx=sin x+C\
7.&int sin x dx=-cos x+C\
8.&int frac{dx}{cos^2x}=int sec^2xdx=tan x+C\
9.&int frac{dx}{sin^2x}=int csc^2xdx=-cot x+C\
10.&int sec x tan x dx=sec x+C\
11.&int csc x cot x dx=-csc x+C\
12.&int e^x dx=e^x+C\
13.&int a^x dx=frac{a^x}{ln a}+C\
end{aligned}]