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Program 1
# Numpy Difference Universal Function #NumPy LCM (Lowest Common Multiple) #NumPy GCD (Greatest Common Devisor) import numpy as np # myarr = np.array([8, 20, 44, 16, 32,36]) # m = np.gcd.reduce(myarr) # print(m) # m=20 # n=10 # x=np.gcd(m,n) # print(x) # myarr = np.array([3, 6, 9]) # c=np.lcm.reduce(myarr) # print(c) # myarr = np.array([10, 15, 25, 5]) # c=np.lcm.reduce(myarr) # print(c) # a=5 # b=10 # c=np.lcm(a,b) # print(c) # myarr = np.array([10, 15, 25, 5]) # newar=np.diff(myarr,n=2) # [5,10,-20]----> [5,-30] # print(newar) # myar=np.array([1,2,3,4]) # newar=np.diff(myar,n=2) # [1,1,1]---> [0,0] # print(newar) # myar=np.array([1,2,3,4]) # newar=np.diff(myar) # [1,,1,1] # print(newar) # myarr = np.array([10, 15, 25, 5]) # 15-10 , 25-15 , 5-25 # newar=np.diff(myarr) # print(newar)