Tech Garden

Armstrong Number num = int(input("Enter a number: ")) sum = 0 temp = num while temp > 0:    digit = temp % 10    sum += digit ** 3    temp //= 10 if num == sum:    print(num,"is an Armstrong number") else:    print(num,"is not an Armstrong number") Output: Enter a number: 555 555 is not an Armstrong number

Clock from turtle import * from datetime import datetime def jump(distanz, winkel=0):     penup()     right(winkel)     forward(distanz)     left(winkel)     pendown() def hand(laenge, spitze):     fd(laenge*1.15)     rt(90)     fd(spitze/2.0)     lt(120)     fd(spitze)     lt(120)     fd(spitze)     lt(120)     fd(spitze/2.0) def make_hand_shape(name, laenge, spitze):     reset()     jump(-laenge*0.15)     begin_poly()     hand(laenge, spitze)     end_poly()     hand_form = get_poly()     register_shape(name, hand_form) def clockface(radius):     reset()     pensize(7)     for i in range(60):         jump(radius)         if i % 5 == 0:           ...

Palindrome wrd=input("Please enter a word : ") wrd=str(wrd) rvs=wrd[::-1] print(rvs) if wrd == rvs: print("This word is a palindrome") else: print("This word is not a palindrome") Output: Please enter a word : hannah hannah This word is a palindrome

Four Square Pattern import turtle turObj = turtle.Turtle() turObj.getscreen().bgcolor("#555555") turObj.speed(5000) def star(turtle, size):     if size <=5:         return     else:         for i in range(4):             turObj.color("#FFFFFF")             turtle.forward(size)             star(turtle,size/2)             turtle.left(270) star(turObj,100)        turtle.done() Output:

8-Star Design import turtle turObj = turtle.Turtle() turObj.getscreen().bgcolor("#555555") turObj.speed(10) def star(turtle, size):     if size <=5:         return     else:         for i in range(8):             turObj.color("#98F798")             turtle.forward(size)             star(turtle,size/6)             turtle.left(135) star(turObj,300)      turtle.done() Output:

Star Design import turtle turObj = turtle.Turtle() turObj.getscreen().bgcolor("#555555") turObj.speed(10) def star(turtle, size):     if size <=10:         return     else:         for i in range(30):             turObj.color("#FEACFF")             turObj.forward(i * 15)             turObj.right(144)            star(turObj,100)        turtle.done() Output: