Fibonacci Sequence in Python

num = int(input()) def fibonacci(n): if n <= 1: return n else: return fibonacci(n-1) + fibonacci(n-2) for number in range(num): print(fibonacci(number))

But how actually can we solve this? Exercise conditions pretty clear says u should get result from function call, not looping. So all the answers with loop after func init are wrong. Don't get proud.

from math import sqrt def F(n): return ((1+sqrt(5))**n-(1-sqrt(5))**n)/(2**n*sqrt(5)) This is pretty easier 😅 And it is the seconde form of Fibonacci Sequence 😁 Good luck ❤😁

num = int(input()) def fibonacci(n): i = 0 myList = [0, 1] while i < num - 2: i += 1 myList.append(myList[-2] + myList[-1]) for x in range(len(myList)): print(myList[x]) fibonacci(num)

#this is the answer num = int(input()) def fibonacci(n): if n <= 1: return n else: return fibonacci(n-1) + fibonacci(n-2) for number in range(num): print(fibonacci(number))

I used a nested function to do the looping inside the main function and it worked fine. num = int(input()) def fibonacci(n): def fib(n): if n <= 1: return n else: return fib(n-1)+fib(n-2) for i in range(n): print(fib(i)) fibonacci(num)

num = int(input()) def fibonacci(n): if n<=1: return n else: return fibonacci(n-1) + fibonacci(n-2) for number in range(num): print(fibonacci(number)

my simpler code, only simpler num = int(input("masukan angka: ")) def fib(n): if n == 0: return 0 if n == 1: return 1 elif n == 2: return 1 elif n > 2: return fib(n-1) + fib(n-2) for n in range(num): print(f"{fib(n)}")

num = int(input()) while num < 0: num = int(input()) first = 0 second = 1 for i in range(num): print(first) third = first + second first = second second = third

https://www.sololearn.com/learning/eom-project/1073/574 anyone else getting 404 error there?

There is no magic here... You'd have to add additional logic: num = int(input()) temp=[] temp2=[0,1,1] def fibonacci(n): #complete the recursive function if n <= 1: return 1 else: f=(fibonacci(n-1) + fibonacci(n-2)) if n not in temp: temp.append(n) temp2.append(f) return f fibonacci(num) for f in temp2[:-2]: print(f)

#the best answer is num = int(input()) def fibonacci(n): if n <= 1: return n else: return fibonacci(n-1) + fibonacci(n-2) for number in range(num): print(fibonacci(number)) #But i did it like def fibonacci(n, nOk = False): if not nOk: n=n-1 if n<=1: ret = {0:0,1:1} print(ret[n-1]) print(ret[n]) return ret else: prRet = fibonacci(n-1,True) ret = prRet ret[n] = prRet[n-1] + prRet[n-2] print(ret[n]) return ret fibonacci(num)

#fibonacci sequence num = int(input()) def fibonacci(n): if n <= 1: return n else: return fibonacci(n-1) + fibonacci(n-2) for number in range(num): print(fibonacci(number))

def fibonnaci(i): #complete the recursive function if i== 0: return 0 elif i==1: return 1 else: return fibonnaci (i-1) + fibonnaci(i-2) n=int(input()) for n in range(0,n): print(fibonnaci(n))

num = int(input()) def fibonacci(n): first = [0, 1] for i in range(n-2): first.append(first[-1] + first [-2]) for i in first: print(i) fibonacci(num)

n = int(input()) def fibonacci(cnt,n,l,a1,a2,ans): # cnt=cnt+1 if cnt==n: return l else: l.append(a2) ans = a1 + a2 a1 = a2 a2 = ans return fibonacci((cnt+1),n,l,a1,a2,ans) l=[] a1 = 0 a2 = 1 ans = 0 l.append(a1) l2=fibonacci(1,n,l,a1,a2,ans) for i in l: print(f"{i}")

k

I got one. num1=0 num2=1 for x in ans ans1=num1+num2 num1= ans1 ans2 =num1+num2 num2 =ans2 print(num1) print(num2)