import statistics as s
import statistics
import math
x = [10, 2, 19, 24, 6, 23, 47, 24, 54, 77]
x
print("x list is : ", f'\n{x}\n')

xi = [1/10, 1/2, 1/19, 1/24, 1/6, 1/23, 1/47, 1/24, 1/54, 1/77]
print("1/x list is : ", f'\n{xi}\n')

xg = math.prod(x)
print("Product of x is :", xg)

mean_x = sum(x)/len(x)
print("Mean is :", mean_x)

harmonic_x = (1/(sum(xi)/len(xi)))
print("Harmonic Mean is :", harmonic_x)

geometric_x = xg**(1/len(x))
print("Geometric Mean is :", geometric_x)

x_m = statistics.mean(x)
x_h = statistics.harmonic_mean(x)
x_g = statistics.geometric_mean(x)

print("Mean of x is :", x_m)
print("Harmonic Mean of x is :", x_h)
print("Geometric Mean of x is :", x_g)

b = [30, 60]
b_m = s.mean(b)
b_h = s.harmonic_mean(b)
print("Mean of b is :", b_m)
print("Harmonic Mean of b is :", b_h)

c = [120, 130, 118]
c_m = s.mean(c)
c_g = s.geometric_mean(c)
print("Mean of c is :", c_m)
print("Geometric Mean of c is :", c_g)

g = ((9204/5000)**(1/3)-1)*100
print("compound annual growth rate(CAGR) of c is :", g)