In a homogeneous mixture the components are spread evenly throughout one another and any two random sample of the mixture will be identical.
In a heterogeneous mixture the components remain separated into "phases" and the composition of the mixture varies throughout.
For example, in muddy water the soil particles remain distinct from the water.
Steel is galvanized by giving it a surface coating of zinc. Heterogenous mixtures have visible boundaries between the components. Homogeneous mixtures have no visible boundaries because mixing occurs at the molecular level. Galvanized steel is thus a heterogeneous mixture.
Actually, the main difference is in their uniformity. Homogeneous mixtures have uniform composition throughout, while heterogeneous mixtures have distinct phases with visible boundaries. Chemical bonds are not a defining factor for distinguishing between these types of mixtures.
I think what you meant to ask is why does a solution look homogenous, and it is solely because a solution IS homogenous. A homogenous mix, is a mix between 2 or more substances where the mix appears as only one substance Opposingly, a heterogenous mixture is a mix of 2 or more substances where all of the substances can be identified by the human naked eye.
A heterogeneous mixture has visibly different substances that are unevenly distributed, like a salad with distinct ingredients. In contrast, a homogeneous mixture has substances uniformly distributed at the molecular level, such as salt dissolved in water.
A mixture with properties in between those of solutions and heterogeneous mixtures is called a colloidal mixture. In colloidal mixtures, the particles are larger than those in solutions but smaller than those in heterogeneous mixtures, leading to properties such as Tyndall effect and Brownian motion.
Heterogeneous mixtures have visibly different components that can be easily distinguished, such as a salad or a bowl of mixed nuts. Homogeneous mixtures, on the other hand, have uniform composition throughout, like saltwater or air.
Steel is galvanized by giving it a surface coating of zinc. Heterogenous mixtures have visible boundaries between the components. Homogeneous mixtures have no visible boundaries because mixing occurs at the molecular level. Galvanized steel is thus a heterogeneous mixture.
Bricks would be considered heterogeneous mixtures. They contain various sediments that can be easily seen and can be separated again.
Heterogenous network environments consist of computer systems from differenct vendors that run differenct operating systems and communication protocols Homogenous Generally a homogenous networks is made up of computer from the same vendor or compatible equipment that all run unde rthe same OS or network operating system. Heterogenous networks are obviously more common because most companies purchae there equipment from a variety of vendors
A principal difference between solid phases is the crystal structure, or arrangement, of the atoms
homogenous goods are similar in features, benefits and quality but are diferentiated based on price and availability. they are more difficult to find because the supplier is always trying to differentiate his product from the next similar product to win the consumer. examples could be sand or coal
Heterogeneous mixtures have visibly different components that can be distinguished by the naked eye, such as a salad. Homogeneous mixtures have uniform composition throughout, like salt dissolved in water.
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A homogenous beam contains photons of the same energy (monoenergetic)Because the photons all have the same energy, their interactions with materials (such as the absorber) are all the same resulting in uniform attenuation.Heterogenous beams contain photons of different energies.Because the photons have different energies, their interactions with materials (such as the absorber) are different resulting in non-uniform attenuation.
Actually, the main difference is in their uniformity. Homogeneous mixtures have uniform composition throughout, while heterogeneous mixtures have distinct phases with visible boundaries. Chemical bonds are not a defining factor for distinguishing between these types of mixtures.
A soluble constituent when completely dissolved in a solvent, which may be water or any other liquid is called a homogenous solution. When more than one solutes are dissolved then it becomes heterogenous,