# Python code to demonstrate the working of # sin() and cos() # importing 'math' for mathematical operations import math a = math.pi/6 # returning the value of sine of pi/6 print ('The value of sine of pi/6 is : ' end='') print (math.sin(a)) # returning the value of cosine of pi/6 print ('The value of cosine of pi/6 is : ' end='') print (math.cos(a))
The value of sine of pi/6 is : 0.49999999999999994 The value of cosine of pi/6 is : 0.8660254037844387
3. bronzeado() : - Esta função retorna o tangente de valor passado como argumento. O valor passado nesta função deve estar em radianos . 4. hipot(a b) :- Isso retorna o hipotenusa dos valores passados em argumentos. Numericamente ele retorna o valor de quadrado(a*a + b*b) . Python
# Python code to demonstrate the working of # tan() and hypot() # importing 'math' for mathematical operations import math a = math.pi/6 b = 3 c = 4 # returning the value of tangent of pi/6 print ('The value of tangent of pi/6 is : ' end='') print (math.tan(a)) # returning the value of hypotenuse of 3 and 4 print ('The value of hypotenuse of 3 and 4 is : ' end='') print (math.hypot(bc))
The value of tangent of pi/6 is : 0.5773502691896257 The value of hypotenuse of 3 and 4 is : 5.0
5. graus() :- Esta função é usada para converter o valor do argumento de radianos para graus . 6. radianos() :- Esta função é usada para converter o valor do argumento de graus para radianos . Python
# Python code to demonstrate the working of # degrees() and radians() # importing 'math' for mathematical operations import math a = math.pi/6 b = 30 # returning the converted value from radians to degrees print ('The converted value from radians to degrees is : ' end='') print (math.degrees(a)) # returning the converted value from degrees to radians print ('The converted value from degrees to radians is : ' end='') print (math.radians(b))
The converted value from radians to degrees is : 29.999999999999996 The converted value from degrees to radians is : 0.5235987755982988