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In mixtures, different substances retain their individual properties because they are not chemically combined. The particle model of matter explains this by showing that particles in mixtures remain separate and do not form new compounds. In solutions, particles of one substance are evenly distributed throughout another substance, which aligns with the particle model's description of particles mixing uniformly at the molecular level.
This transfer of heat by passing vibrations through a substance is called conduction. In conduction, heat energy is transferred from one particle to another without the particles themselves moving. This method of heat transfer is efficient in solids.
There are quantum numbers that describe the location of electrons, if that is what you mean.Answer: by analyzing its interactions with another particle
False. Liquid water in air forms a mixture, not a solution. A solution is a homogeneous mixture where one substance dissolves completely in another. In the case of water in air, the water droplets are dispersed throughout the air, but they do not dissolve in it.
A solution consists of particles of matter dissolved in another substance. These particles are typically molecules or ions that are dispersed and evenly distributed throughout the solvent. Examples of solutions include saltwater and sugar dissolved in water.
Homogeneous
In mixtures, different substances retain their individual properties because they are not chemically combined. The particle model of matter explains this by showing that particles in mixtures remain separate and do not form new compounds. In solutions, particles of one substance are evenly distributed throughout another substance, which aligns with the particle model's description of particles mixing uniformly at the molecular level.
This transfer of heat by passing vibrations through a substance is called conduction. In conduction, heat energy is transferred from one particle to another without the particles themselves moving. This method of heat transfer is efficient in solids.
An atom, these include protons, neutrons and electrons. The number of these smaller particles is what distingushes one atom of an element for another. For example, an atom of oxygen has 8 protons, neutrons, and electrons while a hydrogen atom has 1 proton neutron and electron
an aerosol is made of droplets of liquid in another liquid.
A pure substance contains only one chemical identity, e.g. one element or one compound. While the properties of any pure substance might be completely different from that of another, the properties of any sample of a single pure substance will always be the same.
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A solution.
I believe it is a colloid: a type of mixture in which one substance is dispersed evenly throughout another.
solution
Solutions are mistaken for pure substances because they often appear uniform and have consistent properties throughout the mixture. However, solutions are actually a homogeneous mixture of two or more substances, where one substance (solute) is dissolved in another (solvent). This is different from a pure substance, which consists of only one type of particle.
droplets