Python learning

How to Become Better in 2023🙌🏻🙌🏻🙌🏻🙌🏻

import turtle a=turtle.Turtle() a.getscreen().bgcolor("black") a.penup() a.goto(-200, 100) a.pendown() a.color("yellow") a.speed(25) def star(turtle, size): if size<=10: return else: turtle.begin_fill() for i in range (5): turtle.pensize(2) turtle.forward(size) star(turtle, size/3) turtle.left(216) turtle.end_fill() star(a, 360) turtle.done()

Run this code and send me output

Bring back childhood memories😍. Tertis game using python. Source code 👇👇

World's Best IT Companies 🙌🏻🙌🏻

Top Programming Interview Questions and Answers (General) Question: Please explain what you understand by computer programming. Answer: Also known as coding or programming, computer programming is the process of encoding an algorithm into a notation, typically a computer program, by means of some programming language so that it can be executed by a computer. Each programming language contains a set of instructions for the computer to execute a set of tasks. Programming is a complex process that includes designing an algorithm, coding the same in a programming language, debugging a program, maintaining, and updating the code. Question: Can you enumerate and explain the various types of errors that can occur during the execution of a computer program? Answer: Three types of errors can occur during the execution of a computer program. These are: Logical errors – This occurs in the scenario of a computer program implementing the wrong logic. As there is no report generated for these types of programming errors, they are the most difficult ones to deal with. Runtime errors – Occurs when the program contains an illegal operation. For example, dividing a number by 0. These are the only errors that are displayed instantly during the program execution. Upon the occurrence of a runtime error, the program execution is stopped and a diagnostic message is displayed. Syntax errors – Occurs when one or more grammatical rules of the programming language being used is violated. Such errors are detected during compile time. Question: Please explain an algorithm. What are some of its important features? Answer: An algorithm can be defined as a set of finite steps that when followed helps in accomplishing a particular task. Important features of an algorithm are clarity, efficiency, and finiteness. Question: What do you understand by maintaining and updating a computer program? Answer: The maintenance and updating process of a computer program starts post its successful installation. While program maintenance is the continuous process of monitoring the computer program for bugs and errors, updating the computer program means making it better with minor and major changes over time. Question: Please provide a brief explanation on variables. Answer: Variables are used for storing the input of a program as well as the computational results during program execution. These are actually named memory locations. The value stored in a variable can change during the program execution.

Language Difficulty Guide 🙌🏻🙌🏻

Run this code

from turtle import * import turtle turtle.bgcolor('black') turtle.pencolor('red') turtle.hideturtle() turtle.speed() #curve01 def curve01(a,d): for i in range(d): turtle.right(a) turtle.forward(1) #making eye turtle.width(15) turtle.penup() turtle.right(90) turtle.forward(85) turtle.left(90) turtle.forward(35) turtle.pendown() turtle.fillcolor('white') turtle.begin_fill() turtle.left(55) curve01(0.09,100) curve01(0.2,100) turtle.forward(70) turtle.right(90) curve01(0.5,100) curve01(00,30) curve01(0.3,50) curve01(0.6,50) turtle.forward(50) turtle.right(47) curve01(0.1,95) turtle.end_fill() #changing turtle.penup() turtle.left(36) turtle.forward(70) turtle.pendown() #curve02 def curve02(a,d): for i in range(d): turtle.left(a) turtle.forward(1) #second eye turtle.fillcolor('white') turtle.begin_fill() turtle.right(55) curve02(0.09,100) curve02(0.2,100) turtle.forward(70) turtle.left(90) curve02(0.5,100) curve02(00,30) curve02(0.3,50) curve02(0.6,50) turtle.forward(50) turtle.left(47) curve02(0.1,95) turtle.end_fill() turtle.penup() turtle.width(0) turtle.right(49) turtle.forward(30) turtle.left(102) #100.40 turtle.forward(145) turtle.pencolor('red') #making left face turtle.fillcolor('red') turtle.begin_fill() turtle.speed() turtle.pendown() turtle.left(90) curve01(5,20) turtle.left(175) turtle.forward(50) turtle.left(25) turtle.forward(28) turtle.right(160) turtle.forward(170) curve02(0.2,65) turtle.right(60) curve01(0.1,140) curve01(0.5,50) turtle.left(180) curve02(0.2,150) curve02(0.1,95) turtle.left(127) turtle.forward(5) curve01(2,20) turtle.right(30) turtle.forward(90) turtle.right(7) turtle.forward(75) turtle.right(160) turtle.forward(100) curve02(0.1,105) turtle.right(70) curve01(0.2,200) curve01(0.3,70) turtle.left(175) curve02(0.2,150) curve02(0.3,150) turtle.forward(20) turtle.left(65) curve01(0.1,120) curve01(0.010,105) turtle.right(10) curve01(0.2,110) turtle.right(60) curve01(0.3,138) turtle.right(30) curve01(0.2,160) turtle.left(150) curve02(0.2,100) curve02(0.1,150) turtle.forward(70) curve02(0.4,40) turtle.left(160) curve01(0.1,60) turtle.left(7) curve01(0.1,120) curve01(0.2,30) turtle.forward(20) turtle.right(140) curve02(0.2,40) turtle.right(50) curve02(0.2,70) turtle.right(8) curve02(0.1,70) curve02(0.5,50) turtle.left(153) curve01(0.1,170) turtle.right(81) curve02(0.2,20) turtle.right(3) curve02(0.1,62) turtle.right(153) #.. curve01(0.1,63) turtle.left(50) curve02(0.1,175) turtle.left(60) turtle.forward(7) turtle.end_fill() #going to replicate turtle.left(92.15) turtle.penup() turtle.forward(417) turtle.pendown() turtle.fillcolor('red') turtle.begin_fill() #right face turtle.right(90) curve02(5,20) turtle.right(175) turtle.forward(50) turtle.right(25) turtle.forward(28) turtle.left(160) turtle.forward(170) curve01(0.2,65) turtle.left(60) curve02(0.1,140) curve02(0.5,50) turtle.right(180) curve01(0.2,150) curve01(0.1,95) turtle.right(127) turtle.forward(5) curve02(2,20) turtle.left(30) turtle.forward(90) turtle.left(7) turtle.forward(75) turtle.left(160) turtle.forward(100) curve01(0.1,105) turtle.left(70) curve02(0.2,200) curve02(0.3,70) turtle.right(175) curve01(0.2,150) curve01(0.3,150) turtle.forward(20) turtle.right(65) curve02(0.1,120) curve02(0.010,105) turtle.left(10) curve02(0.2,110) turtle.left(60) curve02(0.3,138) turtle.left(30) curve02(0.2,160) turtle.right(150) curve01(0.2,100) curve01(0.1,150) turtle.forward(70) curve01(0.4,40) turtle.right(160) curve02(0.1,60) turtle.right(7) curve02(0.1,120) curve02(0.2,30) turtle.forward(20) turtle.left(140) curve01(0.2,40) turtle.left(50) curve01(0.2,70) turtle.left(8) curve01(0.1,70) curve01(0.5,50) turtle.right(153) curve02(0.1,170) turtle.left(81) curve01(0.2,20) turtle.left(3) curve01(0.1,62) turtle.left(153) #.. curve02(0.1,63) turtle.right(50) curve01(0.1,100) #0.1 turtle.forward(75) turtle.right(75) turtle.forward(2) turtle.end_fill() turtle.done()

**Lay offs are the talk of the town right now!** 😱Followed by an impending recession and a tightening job market, it's definitely time to consider upskilling yourself. 💯 250+ students successfully switched jobs with AlgoUniversity (backed by Y-Combinator) and headed by IIIT Hyderabad alumni **Manas Kumar Verma** (Quant Analyst at AlphaGrep) and **Swapnil Daga** (Ex-Google, Apple). With mentors from IIIT-Hyderabad and top IITs working in **Google, Apple, Microsoft, AlphaGrep, Tower Research,** as well as housing 2 ICPC World Finalists. 🚀 This "Weekend Oriented Bootcamp" will teach you DSA through live interactive sessions, build Full Stack Projects, and mentor you 1:1. Bootcamp success rate is crazy,🤯 with avg. CTC of 22 LPA and avg. Hike of 110%💯 Registration Link: https://bit.ly/3lxzEsD