Just about anything that is in the realm of science.
To formulate the basic equations of the atmosphere, one typically starts with the fundamental equations of fluid motion, such as the Navier-Stokes equations, and then incorporates additional factors like conservation of mass, energy, and moisture. These equations are applied to describe the dynamics of the atmosphere, including phenomena like wind patterns, temperature variations, and precipitation. Simplified forms of these equations, such as the primitive equations or the equations used in numerical weather models, are commonly used in atmospheric science.
You need differential equations and partial differential equations to describe and predict the dynamic behaviour of systems. Newton and Laplace developed differential equations originally and simultaneously (using different notation) to work with gravity and the movement of the moon and planets.
Math is the language of science. Many science concepts are written not just with words, but with equations. Analysis of numerical data leads to equations and understanding of the concepts.
Mole Ratios
Linear equations or inequalities describe points x y that lie on a circle.
Chemical equations describe the products and reactants in a chemical reaction.
Equations don't govern natural phenomena. They describe them.The equations that best describe electromagnetic radiation are "Maxwell's Equations".They travel together as a group, and there are four of them in the set.
The kinematic equations describe the relationship between distance, time, initial velocity, final velocity, and acceleration in physics.
Most of the laws of science can be represented by mathematical equations or functions.
algebra
Maxwell's equations ... electro-magnetism.
The pair of equations have one ordered pair that is a solution to both equations. If graphed the two lines will cross once.