Output a random fact to your console
Get a random fact.
Command to generate text with a random fact
Random Fact List for NPM.
MCP server for Can: Just the right amount of Kanban, by Random Fact
Get a random fact from our list
Random Facts is a simple tool for getting random facts. It returns a random fact.
Fetches a new and interesting random fact each day from a public fact database (MCP server).
Get a random fact.
Fetches a random fact about a United States national park, including its name, location, and a unique piece of trivia or historical information.
Generate random numbers from various distributions.
Fetches a random fact about birds, providing interesting trivia and information about avian species.
TypeScript definitions for d3-random
Fastest random ID and random string generation for Node.js
URL and cookie safe UIDs
Use the random function in CSS
An alias package for `crypto.randomBytes` in Node.js and/or browsers
Generate a cryptographically strong random string
Random utility functions for ethers.
A Pulumi package to safely use randomness in Pulumi programs.
A small implementation of `crypto.getRandomValues` for React Native. This is useful to polyfill for libraries like [uuid](https://www.npmjs.com/package/uuid) that depend on it.
Provides functions for detecting if the host environment supports the WebCrypto API
Generate a random integer
Statistical routines and probability distributions.
A gem to provide random facts based on requested parameters
It is a random cat fact and image generator.
A simple fun facts about cats gem
Ruby gem to get easily random wikipedia facts.
library helps you display random facts about a number or date or a year.
This Ruby Gem generates random calendar facts from Randall Munroe\'s XKCD #1930 \'Calendar Facts\''
Sentence generator that generates facts on fruit. Good if you want random sentences
Get random facts about Arabic using this gem.
qrng.anu.edu.au offers true random numbers to anyone on the internet. The random numbers are generated in real-time in our lab by measuring the quantum fluctuations of the vacuum. The vacuum is described very differently in the quantum mechanical context than in the classical context. Traditionally, a vacuum is considered as a space that is empty of matter or photons. Quantum mechanically, however, that same space resembles a sea of virtual particles appearing and disappearing all the time. This result is due to the fact that the vacuum still possesses a zero-point energy. Consequently, the electromagnetic field of the vacuum exhibits random fluctuations in phase and amplitude at all frequencies. By carefully measuring these fluctuations, we are able to generate ultra-high bandwidth random numbers.
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