import cubed answer = cubed.cube(5) print(answer)
import cubed print(cubed.cube(2))
import statistics import cubed # Call a different function from the statistics module. numbers = [2.3, 3.4, 4.5] result1 = statistics.variance(numbers) print(result1) # Import and call the function from another module. result2 = cubed.cube(2) print(result2)
import cubed num = cubed.cube(4) print(num)
import cubed print(cubed.cube(5))
import cubed print(cubed.cube(4))
import cubed result = cubed.cube(2) print(result)
import cubed a = input("数字を入力してください:") try: a = int(a) print(cubed.cube(a)) except ValueError: print("数字を入力してください")
###section8-1 ##import statistics ##data = [8, 19, 12, 7] ##statistics.variance(data) ## ## #section8-2 import cubed cubed.cube()
import cubed as c num = 3 print(c.cube(num))
# Challenges # 1 import statistics, cubed mean = statistics.mean([3,56,7,4,3,34,7,88,4,3]) print(mean) # 2 cubed.cube(3)
import math import random import statistics import keyword import cubed print(random.randint(1, 100)) nums = [1, 4, 74, 1234, 130948] print(statistics.median(nums)) print(keyword.iskeyword("in")) print(cubed.cube())
import cubed Print = cubed.cube(5) print(Print)
#Chapter 8 Challeges - pg.121 #2. Create a module named cubed with a function that takes a number as a # parameter, and returns the number cubed. Import and call the function # from another module. import cubed a = input("Please enter a number you wish to cube: ") a = int(a) aNew = cubed.cube(a) print(aNew)
import cubed num = 5 result = cubed.cube(5) print("Number: {}".format(num)) print("Number Cubed: {}".format(result))
import cubed a = input("Enter a number: ") a = int(a) a = cubed.cube(a) print(a)
#Challenge8 #1 """ import random for i in range(10): i = random.randint(1,100) print(i) #ランダムな整数を10個作る """ import statistics data = [41,47,88,96,15,21,84,68,11,49] print(statistics.mean(data)) print(statistics.harmonic_mean(data)) print(statistics.median(data)) #2 import cubed print(cubed.cube(3))
listD = [] for i in listB: for j in listC: listD.append(i * j) print(listD) # In[80]: # SS8 ------------- import statistics as st import cubed as cu # originally created intA = [1, 5, 44, 66, 3, 78, 43] print(st.stdev(intA)) print(cu.cube(1.5)) # In[77]: # cubed.py def cube(x): ''' return x**3 :param x: numeric :param x2: numeric :return: numeric ''' try: x2 = x**3