URNIV BOSU's Projects
analog clock built using HTML, CSS, and JavaScript. The clock has three needles for hours, minutes, and seconds, and is accompanied by tick marks representing each hour. In addition, there is a navigation bar at the top of the page, which includes links to various social media platforms, as well as an option to send feedback via email.
This is an HTML code calculator web application. This includes a container div and a calculator div that contains the main calculator interface. It has an input text field with an id of "inputBox" that displays the current input value, and several buttons for performing basic arithmetic operations.
This website is developed using HTML, CSS, and JAVASCRIPT. Hope you like the website.....
My portfolio website showcases my work and accomplishments, It displays my skills, creativity, and expertise. It highlights my best projects, demonstrating my abilities to potential clients or employers.
This website has been developed using the React.js, Node.js, Express.js, and MongoDB database stack. It functions as a news aggregator, featuring various categories of real-time news. Additionally, the website includes a user authentication system implemented through a login page.
Buy & Sell Digital Assets In The Portfolio - Pal, Portfolio - Pal is the easiest, safest, and fastest way to buy & sell crypto asset exchange.
This is website is developed using HTML, CSS, and JAVASCRIPT. Hope you like the website.....
This is a simple scientific calculator program written in C++. It allows the user to perform various mathematical operations such as addition, subtraction, multiplication, division, computing factorials, finding power of numbers, calculating squares, cubes and square roots.
This is an Arduino code that uses three ultrasonic sensors to detect the presence of objects/Vehicles in three different slots and displays the status on a 16x2 LCD display. It also turns on LEDs to indicate whether a slot is empty or filled.
This project consists an Arduino board that controls two LEDs (LED1 and LED2) based on the readings from an LDR sensor and two IR sensors (IR1 and IR2).