Computers are primarily composed of materials such as metals, plastics, and silicon, which exhibit various chemical properties. For instance, silicon is a semiconductor with unique electrical conductivity characteristics that change with temperature and impurities. Metals like copper and aluminum have high thermal and electrical conductivity, making them essential for circuit pathways. Additionally, plastics used in computer casings can be resistant to chemicals and corrosion, impacting their longevity and performance.
- chemical reactivity - thermal stability - flammability - oxydation - reduction
The physical properties of a computer include its size, weight, shape, and material composition. Computers are typically made of materials such as plastic, metal, and silicon. The chemical properties of a computer refer to the elements and compounds present in its components, such as silicon chips, copper wiring, and various plastics. Additionally, computers utilize chemical reactions within their components, such as those that occur in batteries or semiconductor materials.
It is supposed that bohrium has chemical properties similar to the properties of his homologue, rhenium. Only the compound BhO3Cl is known today. The predicted valences of bohrium are 7, 5, 4, 3.
Chemical properties are determined by experiments.
If it's a chemical, it has chemical properties. An oreo churro (whatever unholy abomination that might be) is a mixture of chemicals, each of which will have their own chemical properties.
helium is chemically inert and has no chemical properties
Chemical property
Is reacts with water not a chemical properties
A chemical reaction (change) results in a change in chemical properties.
Physical and chemical properties change as the result of a chemical change, which produces new products with different physical and chemical properties than the reactants.
Helium is inert. There are no known compounds. It has no chemical properties.
Each chemical compound has specific chemical and physical properties.