Aluminium react with oxygen, carbon, nitrogen, sulfur, halogens, sodium and potassium hydroxide, some acids, etc.
Chemical reactions are abbreviated by their chemical equations.
Well chemical equations can help us understand how a certain substance is made and what combines with what to make it using symbol and word equations .It makes more understanding of the concepts through symbols.
* 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.
If you can solve the beam reactions by the equations of equilibrium, then it is statically deterrminate. If not, that is, more unknown reactions than the equations of equilibrium, then it is indeterminate, and you need to know something about its deformation to solve the reactions.
CaCO3 --> CaO + CO2
chemical equations
Chemical equations describe the products and reactants in a chemical reaction.
Termochemical reactions include the enthalpy of reactants and products.
because yes!
Chemical equations provide specific information about the reactants and products involved in a chemical reaction, including the ratio of the substances involved and the energy changes that occur. This level of detail is not conveyed in word equations, making chemical equations more precise and useful for scientific analysis. Additionally, chemical equations can be used to predict the outcome of reactions and to balance equations, which is important for accurate experimental design.
Chemical equations are important because they show the chemical reactions taking place, including the reactants and products involved. They provide a way to represent and communicate complex chemical reactions in a concise and standardized format. Chemical equations also help in predicting the outcome of reactions and understanding the stoichiometry of the reaction.
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.