import math print(math.average(1,2,3))
''' import math print(math.average(1,2,3)) print(math.plus(3,4)) print(math.pi) ''' from math import average, plus, pi print(average(1, 2, 3)) print(plus(3, 4)) print(pi)
def Calc_ModA_grade(self):
'''The grade for Module A is the
average score for all topics in the module'''
return math.average(T1, T2)
# import math # print(math.average(10,20,30)) # print(math.pi) # print(math.plus(10, 20)) from math import average, pi, plus print(average(10, 20, 30)) print(pi) print(plus(10, 20))
dlat = math.radians(lat2 - lat1)
dlon = math.radians(lon2 - lon1)
a = (math.sin(dlat / 2) * math.sin(dlat / 2) +
math.cos(math.radians(lat1)) * math.cos(math.radians(lat2)) *
math.sin(dlon / 2) * math.sin(dlon / 2))
c = 2 * math.atan2(math.sqrt(a), math.sqrt(1 - a))
d = radius * c
return d
d = distance((48.1372, 11.5756), (52.5186, 13.4083))
print(d)
X1 = X[0:10, :]
print(X1)
for i in X1:
dist = 0.0
distance_initial_lon = 0.0
distance_initial_lat = 0.0
temp = i[2]
distance_initial_lon = i[0]
distance_initail_lat = i[1]
dist_intra = (1 / (i[0] * i[1]))
while (i[2] == temp):
dist = dist + distance((distance_initial_lat, distance_initial_lon),
(i[1], i[0]))
dist_intra = dist_intra * dist
dist_intra = math.average(dist_intra)
print(dist_intra)