Famous math, physics, stats, and CS equations as Python functions.
Project description
QuantumSolve
Welcome to QuantumSolve, a Python package that brings the power of famous equations to your fingertips! Whether you're a student, researcher, or just a curious mind, QuantumSolve simplifies complex concepts in Mathematics, Physics, Statistics, and Computer Science with ease. 🚀
About QuantumSolve
QuantumSolve is designed to be your one-stop solution for solving equations, performing calculations, and understanding the fundamental principles that drive science and technology. With a comprehensive collection of 80+ equations, this package is perfect for anyone looking to explore the beauty of mathematics, the laws of physics, the intricacies of statistics, and the logic of computer science algorithms.
Whether you're calculating the trajectory of a projectile, analyzing data trends, solving quadratic equations, or implementing algorithms like Longest Common Subsequence (LCS), QuantumSolve has you covered. The package is built with simplicity and efficiency in mind, making it accessible to both beginners and experts.
Key Features
- Mathematics: Solve algebraic equations, calculate means, variances, and perform advanced operations like derivatives and integrals.
- Physics: Access formulas for mechanics, thermodynamics, electromagnetism, and relativity, including Newton's laws, Einstein's energy equation, and more.
- Statistics: Perform statistical analysis with functions for mean, median, mode, standard deviation, correlation, and probability distributions.
- Computer Science: Implement key algorithms like sorting, searching, and dynamic programming solutions such as Longest Common Subsequence (LCS).
- User-Friendly: Designed with simplicity in mind, QuantumSolve is easy to use and integrates seamlessly into your Python projects.
Install the package via pip:
pip install quantumsolve
Usage:
Import the package and start solving equations:
import quantumsolve
# Example: Calculate force using Newton's Second Law
force = quantumsolve.newton_second_law(10, 5) # mass = 10 kg, acceleration = 5 m/s²
print("Force:", force)
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