many many collisions at the atomic/molecular level
The atomic level is unchanged.
The study of all forms of matter and how they interact with each other is called chemistry. Chemistry encompasses the composition, structure, properties, and reactions of matter at the atomic and molecular level.
Nuclear fusion is a process that occurs at extremely high temperatures and involves the merging of atomic nuclei to release energy. It is not in a specific state of matter like gas, liquid, or solid, as it involves the transformation of matter at the atomic level.
Heat does not have an atomic structure. It is a form of energy, not matter.
Interactions at the atomic level determine the arrangement of atoms and molecules, which influences the chemical and physical properties of matter. In organisms, these interactions are responsible for the structures and functions of biological molecules like proteins and DNA. In non-living matter, atomic interactions determine characteristics such as melting point, conductivity, and strength. By understanding these atomic interactions, we can explain the observable properties of both living organisms and non-living matter.
the difference is that the substances is aparent only on the atomic or molecular level.
The color of matter is determined by the way it interacts with light at the atomic level. The shape of matter is influenced by the arrangement of atoms and molecules that make up the material.
Nanotechnology is the study of controlling matter at atomic level so it is no-where related to electrical and electronics.
many many collisions at the atomic/molecular level
The atomic level is unchanged.
Microwaves interact with matter at the atomic level by causing the atoms and molecules to vibrate and generate heat through a process called dielectric heating. This occurs when the microwaves' electromagnetic waves match the natural frequency of the molecules, causing them to absorb the energy and increase in temperature.
The difference between pure and mixed matter is apparent only on the atomic or molecular level. A pure matter has only one component, while a mixed matter has 2 or more components.
Chemists study the composition of all matter at the atomic and molecular level. They analyze the structure, properties, and reactions of substances to better understand their composition.
The atomic level is the finest grain of aggregation summarized by a dimensional data model. When applied to dimensions, the atomic level refers to the discrete values the dimension may assume. When applied to a dataset, the atomic level is the cell created by the intersection of all dimensions at the atomic level. The atomic level is the lowest level of detail normally stored in a multi-dimensional database.
Matter is composed from [atomic] elements.
The study of all forms of matter and how they interact with each other is called chemistry. Chemistry encompasses the composition, structure, properties, and reactions of matter at the atomic and molecular level.