def histogramBlock_Normalisation(hist):
sum = 0
hist_norm = []
for i in range(36):
sum += hist[i]**2
for i in range(36):
hist_norm.append(hist[i] / math.sqtr(sum))
return hist_norm
def check_prime(n):
count=0
for i in range (2, math.floor(math.sqtr(n))+1):
if n % i == 0:
print('the number is not prime')
break
count = count + 1
if count+2 == math.floor(math.sqrt(n))+1:
print('the number is prime')
import math
px = int(input("Informe a coordenada x círculo: "))
py = int(input("Informe a coordenada y círculo: "))
r + int(input("Informe o raio do círculo: "))
qx = int(input("Informe o coordenada x do ponto: "))
qy + int(input("Informe o coordenada y do ponto: "))
raiz = (px - qx) ** 2 + (py - qy) ** 2
dist + math.sqtr(raiz)
if dist > r:
print("O ponto està fora do cìrculo")
else:
print("O ponto está dentro do círculo")
#!/usr/bin/python
import math
# Because you used import you can access methods by referencing the module
print("ceil(4.4) = ", math.ceil(4.4))
print("floor(4.4) = ", math.floor(4.4))
print("fabs(4.4) = ", math.fabs(4.4))
# Factorial = 1 * 2 * 3 * 4
print("factorial(4.4) = ", math.factorial(4))
# Returns the reminder of division
print("fmod(5,4) = ", math.fmod(5, 4))
# Recieve a float and return an int
print("trunc(4.4) = ", math.trunc(4.4))
# Return x y
print("pow(4,4) = ", math.pow(4, 4))
# return the squre root
print("sqtr(4.4) = ", math.sqtr(4.4))
def dist(point1, point2):
return math.sqtr((point1[0] - point2[0])**2 + (point1[1] - point2[1])**2)
"""
Entradas
A-->int
B-->int
C-->int
Salidas
D-->int
"""
import math
A=int(input("Digite el valor de A: "))
B=int(input("Digite el valor de B: "))
C=int(input("Digite el valor de C: "))
D=((B**2)-(4*A*C))
if(D==0):
X1=(-B/(2*A))
X2=(-B/(2*A))
print("Los valores de X1 y X2 son: "+str( X1,X2))
elif(D>0):
X2=(-B+math.sqtr((B**2)-(4*A*C)))/(2*A)
X3=(-B+math.sqtr((B**2)-(4*A*C)))/(2*A)
print("Los valores de X2 y X3 son: " +str(X2,X3))
elif(D<0):
print("No tiene solucion en los reales")
else:
print("Error")
>>> b=2
>>> a!= r b==1
SyntaxError: invalid syntax
>>> not(a==1)
False
>>> a!=1 or b==1
False
>>> math,sqrt(8)
Traceback (most recent call last):
File "<pyshell#67>", line 1, in <module>
math,sqrt(8)
NameError: name 'math' is not defined
>>> import math
>>> math.sqrt(8)
2.8284271247461903
>>> math.sqtr(9)
Traceback (most recent call last):
File "<pyshell#70>", line 1, in <module>
math.sqtr(9)
AttributeError: module 'math' has no attribute 'sqtr'
>>> math.sqrt(9)
3.0
>>> 1+1+1==3
True
>>> is_ready = bool
>>> if not is_ready == false
SyntaxError: invalid syntax
>>> not is_ready -- False
Traceback (most recent call last):
File "<pyshell#75>", line 1, in <module>
not is_ready -- False
a = input()
print("Ingrese lado F")
f = input()
print("Ingrese lado G")
g = input()
else:
if(tr==2):
print("Equilatero Ingrese valor de lado")
a=f=g= input()
else:
print("Isoceles Ingrese primero los dos lados iguales y luego el distinto")
a = f = input()
g = input()
a=int(a)
f=int(f)
g=int(g)
b=int(b)
h=int(math.sqtr((a**2)-((b/2)**2))
perimetro=int(perimetro)
base=int(g)
perimetro = a+f+g
print("El perimetro es ")
print(perimetro)
print("El area es")
print((b*h)/2)