✨ I write simple, stupid and hence, readable "okay" codes with less WTFs/min from code reviews - mostly in Flutter, Node.js.
✨ Industries: Offshore IT Industry, Digital Agency, Health, Education, Finance.
Things you should know -
- 🔭 Currently working on: Dart & Flutter
- 🌱 Getting better at: Flutter, Swift, Kotlin, Agile Software Development, Technical Product Management
- 📫 Reach me out: Shoot a mail at
⚡️ Languages
Level novice or no more worked
⚡️ IDE / Editor
⚡️ Data
⚡️ Frameworks / Platforms
⚡️ Tools
Worked (Alphabetical order)
⚡️ Github Status
📕 Latest Blog Posts
- Solving Artifacts with
ImageFilter.blurin Flutter on Android, iOS and macOS - Innovation in Accessibility: Real Inclusion or Barrier for the Deaf Community?
- Error Handling in Dart: Should You Use
try/catch, Return Values, or Functional Approaches? - Talks
http_statusDart Package: A Comprehensive Guide
The steerable 60 foot diameter dish antenna of the One-Mile Telescope at Mullard Radio Astronomy Observatory, Cambridge, UK, is pointing skyward in this evocative night-skyscape. To capture the dramatic scene, consecutive 30 second exposures were recorded over a period of 90 minutes. Combined, the exposures reveal a background of gracefully arcing star trails that reflect planet Earth's daily rotation on its axis. The North Celestial Pole, the extension of Earth's axis of rotation into space, points near Polaris, the North Star. That's the bright star that creates the short trail near the center of the concentric arcs. But the historic One-Mile Telescope array also relied on planet Earth's rotation to operate. Exploring the universe at radio wavelengths, it was the first radio telescope to use Earth-rotation aperture synthesis. That technique uses the rotation of the Earth to change the relative orientation of the telescope array and celestial radio sources to create radio maps of the sky at a resolution better than that of the human eye.
NASAI'm looking for sponsors to support my open source development, I appreciate your support! :)
