Arctanx
senhx, coshx
Arcsenhx
Arccoshx
tanhx
Arctanhx
logx, lnx
x
10
e
x
x
2
x
-1
3
x!
nPr
nCr
Pol(x, y)
Rec(r, θ)
°' "
°' "
x
y
0 ≦ |x| ≦ 9,999999999 × 10
0 ≦ |x| ≦ 230,2585092
0 ≦ |x| ≦ 4,999999999 × 10
1 ≦ x ≦ 4,999999999 × 10
0 ≦ |x| ≦ 9,999999999 × 10
0 ≦ |x| ≦ 9,999999999 × 10
0 < x ≦ 9,999999999 × 10
-9,999999999 × 10
-9,999999999 × 10
0 ≦ x < 1 × 10
100
50
|x| < 1 × 10
; x ≠ 0
100
|x| < 1 × 10
100
|x| < 1 × 10
0 ≦ x ≦ 69 (x es un entero)
0 ≦ n < 1 × 10
10
1 ≦ {n!/(n−r)!} < 1 × 10
0 ≦ n < 1 × 10
10
1 ≦ n!/r! < 1 × 10
|x|, |y| ≦ 9,999999999 × 10
2
2
≦ 9,999999999 × 10
+
0 ≦ r ≦ 9,999999999 × 10
θ: El mismo que senx
|a|, b, c < 1 × 10
El segundo valor mostrado está sujeto a un error de ±1
en la segunda posición decimal.
100
|x| < 1 × 10
Conversiones Decimal ↔ Sexagesimal
0°0'0" ≦ |x| ≦ 9999999°59'59"
x > 0: -1 × 10
100
x = 0: y > 0
x < 0: y = n,
2 + 1
Sin embargo: -1 × 10
y > 0: x ≠ 0, -1 × 10
y = 0: x > 0
y < 0: x = 2n+1,
99
99
99
99
-1
99
≦ x ≦ 99,99999999
99
≦ x ≦ 230,2585092
99
, 0 ≦ r ≦ n (n, r son enteros)
100
, 0 ≦ r ≦ n (n, r son enteros)
o 1 ≦ n!/(n−r)! < 1 × 10
100
99
99
; 0 ≦ b, c
100
< ylogx < 100
(m, n son enteros)
< ylog |x| < 100
100
100
< 1/x logy < 100
2 + 1
(m ≠ 0; m, n son enteros)
26
100
99