|
f(x)=xn f( x )= x n
|
Brainiac [The Archive]
|
01:31 |
|
dy/dx = x^-2 .
|
Brainiac [The Archive]
|
01:20 |
|
tan x dx = − ln | cos x| + C
|
Brainiac [The Archive]
|
01:41 |
|
d/dx cot x = − csc 2 x
|
Brainiac [The Archive]
|
01:08 |
|
y = x^11 e^6x
|
Brainiac [The Archive]
|
01:54 |
|
y = f(x)= x^p
|
Brainiac [The Archive]
|
01:09 |
|
y = x^3/2 - 7x^4 +10e^-3x - 5
|
Brainiac [The Archive]
|
01:25 |
|
f′(x)=nxn−1ORddx(xn)=nxn−1
|
Brainiac [The Archive]
|
01:04 |
|
y = f(x)= C
|
Brainiac [The Archive]
|
01:29 |
|
p x^p-1
|
Brainiac [The Archive]
|
01:07 |
|
csc^2 x dx = − cot x + C
|
Brainiac [The Archive]
|
00:52 |
|
(y^4x^2 + 2xy – y)/(x – 1) = 12
|
Brainiac [The Archive]
|
00:54 |
|
d/dx(e^ax)= a e^ax
|
Brainiac [The Archive]
|
01:14 |
|
1 = 0 ∪{0}=∪
|
Brainiac [The Archive]
|
01:27 |
|
9*10^9
|
Brainiac [The Archive]
|
01:10 |
|
3x^2+12x−23=0
|
Brainiac [The Archive]
|
01:29 |
|
log5(0.2)= –1
|
Brainiac [The Archive]
|
01:29 |
|
d/dx ln |x| = 1/x
|
Brainiac [The Archive]
|
01:11 |
|
lim 1/x = 0.
|
Brainiac [The Archive]
|
01:25 |
|
d x( x n )= n x n − 1
|
Brainiac [The Archive]
|
01:16 |
|
e^2⋅GeV^-1⋅fm^-1
|
Brainiac [The Archive]
|
01:04 |
|
f′(x)=nxn−1
|
Brainiac [The Archive]
|
01:19 |
|
U=Q^2/2C
|
Brainiac [The Archive]
|
01:15 |
|
d/dx [logb(x)] = 1/x 1/ln(b)
|
Brainiac [The Archive]
|
01:34 |
|
mv dt-dv
|
Brainiac [The Archive]
|
01:04 |
|
N⋅m^2⋅C−2
|
Brainiac [The Archive]
|
01:15 |
|
ε0 = 8.854187817 × 10^(-12)F.m-1
|
Brainiac [The Archive]
|
01:27 |