Well, if you take an equation like: Hydrogen + Oxygen = Hydrogen Oxide (H2O) It is the same for a chemical reaction! Combustion: Hydrocarbon + Oxygen --> Carbon Dioxide + Water. (Hope this helped! :/ ) x
chemical equations
fe + O2 = feO
The term you are looking for is "physical equations." These equations describe the relationships between quantities in the physical world, often derived from fundamental principles of physics.
No, but both describe the same chemical reaction.
Solids(: for A+plus
* word equations: describe the substances that react in a chemical reaction (termed reactants ), and the products that are formed, along with their states * formula equations are a shorthand method used to describe the same reactions.
Coefficient
Math is full of Equations. The most famous Equation is e=mc2.
Mole Ratios
When a chemical reaction occurs, it can be described by an equation. This shows the chemicals that react (called the reactants) on the left-hand side, and the chemicals that they produce (called the products) on the right-hand side. The chemicals can be represented by their names or by their chemical symbols.Unlike mathematical equations, the two sides are separated by an arrow, that indicates that the reactants form the products and not the other way round.
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.
Chemical equations written with symbols and formulas provide precision and clarity in representing the reactants and products involved in a reaction. They also allow for easy stoichiometric calculations and a more concise way of expressing chemical reactions.
transcript?!
Nelson Bush Conkwright has written: 'Introduction to the theory of equations' -- subject(s): Theory of Equations 'Differential equations' -- subject(s): Differential equations
The kinematic equations describe the relationship between distance, time, initial velocity, final velocity, and acceleration in physics.