Python Question / Quiz;
What is the output of the following Python code, and why? π€π Comment your answers below! π
What is the output of the following Python code, and why? π€π Comment your answers below! π
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Python Logo Source Code
import turtle
t = turtle.Turtle()
s = turtle.Screen()
s.bgcolor("black")
t.speed(10)
t.pensize(2)
t.pencolor("white")
def s_curve():
for i in range(90):
t.left(1)
t.forward(1)
def r_curve():
for i in range(90):
t.right(1)
t.forward(1)
def l_curve():
s_curve()
t.forward(80)
s_curve()
def l_curve1():
s_curve()
t.forward(90)
s_curve()
def half():
t.forward(50)
s_curve()
t.forward(90)
l_curve()
t.forward(40)
t.left(90)
t.forward(80)
t.right(90)
t.forward(10)
t.right(90)
t.forward(120) #on test
l_curve1()
t.forward(30)
t.left(90)
t.forward(50)
r_curve()
t.forward(40)
t.end_fill()
def get_pos():
t.penup()
t.forward(20)
t.right(90)
t.forward(10)
t.right(90)
t.pendown()
def eye():
t.penup()
t.right(90)
t.forward(160)
t.left(90)
t.forward(70)
t.pencolor("black")
t.dot(35)
def sec_dot():
t.left(90)
t.penup()
t.forward(310)
t.left(90)
t.forward(120)
t.pendown()
t.dot(35)
t.fillcolor("#306998")
t.begin_fill()
half()
t.end_fill()
get_pos()
t.fillcolor("#FFD43B")
t.begin_fill()
half()
t.end_fill()
eye()
sec_dot()
def pause():
t.speed(2)
for i in range(100):
t.left(90)
pause()
import turtle
t = turtle.Turtle()
s = turtle.Screen()
s.bgcolor("black")
t.speed(10)
t.pensize(2)
t.pencolor("white")
def s_curve():
for i in range(90):
t.left(1)
t.forward(1)
def r_curve():
for i in range(90):
t.right(1)
t.forward(1)
def l_curve():
s_curve()
t.forward(80)
s_curve()
def l_curve1():
s_curve()
t.forward(90)
s_curve()
def half():
t.forward(50)
s_curve()
t.forward(90)
l_curve()
t.forward(40)
t.left(90)
t.forward(80)
t.right(90)
t.forward(10)
t.right(90)
t.forward(120) #on test
l_curve1()
t.forward(30)
t.left(90)
t.forward(50)
r_curve()
t.forward(40)
t.end_fill()
def get_pos():
t.penup()
t.forward(20)
t.right(90)
t.forward(10)
t.right(90)
t.pendown()
def eye():
t.penup()
t.right(90)
t.forward(160)
t.left(90)
t.forward(70)
t.pencolor("black")
t.dot(35)
def sec_dot():
t.left(90)
t.penup()
t.forward(310)
t.left(90)
t.forward(120)
t.pendown()
t.dot(35)
t.fillcolor("#306998")
t.begin_fill()
half()
t.end_fill()
get_pos()
t.fillcolor("#FFD43B")
t.begin_fill()
half()
t.end_fill()
eye()
sec_dot()
def pause():
t.speed(2)
for i in range(100):
t.left(90)
pause()
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modular programming exists in Python too. It helps us organize related code in a clean, maintainable, and scalable way. Letβs learn how to do this step by step in Python.
---
Step 1: Create a Module File
Create a new file called
---
Step 2: Use the Module in the Main File
Create another file called
---
Step 3: Run the Code
To run the program, just execute the following command in your terminal or in an IDE like VS Code:
---
Practice:
Now itβs your turn!
1. Create a new file called
2. Define functions like
3. Import and test them in
βοΈ https://t.iss.one/DataScienceQ
---
Step 1: Create a Module File
Create a new file called
string_utils.py and write related functions inside it:# string_utils.py
def to_uppercase(s):
return s.upper()
def to_lowercase(s):
return s.lower()
---
Step 2: Use the Module in the Main File
Create another file called
main.py and import the functions from string_utils:# main.py
from string_utils import to_uppercase, to_lowercase
print(to_uppercase("hello")) # Output: HELLO
print(to_lowercase("WORLD")) # Output: world
---
Step 3: Run the Code
To run the program, just execute the following command in your terminal or in an IDE like VS Code:
python main.py
---
Practice:
Now itβs your turn!
1. Create a new file called
math_utils.py.2. Define functions like
add, subtract, and multiply inside it.3. Import and test them in
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