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Write operational definitions that explain the properties of and differences among solids liquids and gasses?
Rough operational definitions are:
Solid is a body that at given conditions (temperature and pressure) has its own shape and volume;
Liquid is a body that at given conditions (temperature and pressure) has its own volume but not its own shape: it adapts to the container shape.
Gas is a body that at given conditions (pressure and temperature) assumes both volume and shape of its container.
In reality these operating definitions have several limitations and ambiguities.
More precisely we can determine for each material a set of critical conditions. If we fix the pressure (for example one atmosphere, that is 1100 Pa) this means to fix a set of critical temperatures; in the simplest case we can reduce them to two temperatures: Tm, (melting temperature) and Te (evaporation temperature).
The stable state of any material below Tm is a crystal, that is an ordered disposition of atoms or molecules at the nodes of a regular lattice. This means that this is the minimum energy state and the material evolve up to stabilize around it. Crystals are in a certain way the only true solids.
Sometimes however the transition to the crystal state is very slow. In the case of normal glass, it is solid, but it is not a crystal, so that it has to evolve towards a crystal. The time needed to a piece of glass to become a crystal is several thousand years, so that at normal experience it appears to be stable.
Nevertheless glass, as many other solids like many plastics, is not an ordered disposition of molecules: it is said to be an amorphous.
As an out of equilibrium solid, glass has not a precise melting temperature, but in a large temperature range shares some solid and some liquid properties, flowing much like a very viscous liquid, but not occupying all the available container.
A well known plastic, called PDMS, is a transparent solid (an amorphous again) on short times, but if left in a container for a long time (like one or two days) slowly flows like a liquid and assumes the container shape.
Thus, if a well defined transition and well defined differences exists between crystals and liquids, the same is not true if we compare amorphous solids (without an ordered disposition of the molecules) with liquids.
On the other extreme, a true gas, having all the physical and chemical gas properties, would require a very little interaction among the particles constituting it, but for occasional collisions.
If strong interactions appears, due to the high density or due to the fact that the gas particles are for example electrically charged, the gas start to manifest, in selected condition and more evidently for selected materials, a liquid like behavior.
Thus, in conclusion, if crystal and perfect gasses are really different states of matter, that are equilibrium states below Tm and above Te, liquids are somehow in between and even if in normal experience they have well defined properties too, appearing as stable states in between Tm and Ts, cases exist where the clear identification of the solid-liquid or of the gas-liquid separation is uncertain.
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How do chemists explain this difference?
Chemists explain differences in properties or behavior by looking at the molecular structure of substances. Variation in molecular structure can lead to differences in physical, chemical, and biological properties. By understanding how atoms are arranged and interact within molecules, chemists can explain why substances exhibit different characteristics.
Can the existence of isotopes explain the differences in properties between diamond and graphite?
Yes, the differences in properties between diamond and graphite can be explained by the existence of isotopes. Isotopes are atoms of the same element with different numbers of neutrons, which can affect the atomic structure and bonding in materials. In the case of diamond and graphite, the arrangement of carbon atoms and the bonding configuration due to isotopes lead to their distinct properties.
Limitations of the Arrhenius definitions of acids and bases?
the Arrhenius definitions stated that acids would donate a Hydrogen (H+)in water and a base would donate a hydroxide(OH-) in water, but would limit to substances with those "parts" like ammonia for example because it could do both.....
How do you think the atomists would explain the differences between the drops?
The atomists would explain the differences between drops as variations in the configuration and movement of atoms. They would argue that differences in size, shape, and chemical composition of drops are a result of the atoms they are made of and how these atoms are arranged and interact with each other. Additionally, they might suggest that external factors such as temperature and pressure play a role in shaping these differences.
What physical properties are different for the isomers. explain.?
Isomers are molecules with the same molecular formula but different structural arrangements. Physical properties that can differ between isomers include boiling points, melting points, solubility, and density. These differences arise because the arrangement of atoms in isomers affects how the molecules interact with each other, leading to variations in physical properties.
How do chemists explain this difference?
Chemists explain differences in properties or behavior by looking at the molecular structure of substances. Variation in molecular structure can lead to differences in physical, chemical, and biological properties. By understanding how atoms are arranged and interact within molecules, chemists can explain why substances exhibit different characteristics.
How do the differences in carbon bonds explain why graphite amd diamonds have differences?
Graphite has a layered structure: the bonds between carbon atoms are covalent and the bonds between layers are weak van der Waals bonds.Diamonds have a face centered cubic diamond lattice which is very rigid.Differences in structure explain differences of physical properties.
Provide two definitions of the Canadian money supply explain the difference in the two definitions you provide?
The 2 definitions of the Canadian money supply are M1 and M2.
What are examples of severity definitions?
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How did Democritus explain the differences in the properties of matter?
Democritus explained the differences in the properties of matter through his theory of atoms, proposing that all matter is composed of indivisible particles called atoms, which vary in size, shape, and arrangement. He suggested that these differences in atomic characteristics account for the diverse properties of materials, such as hardness, softness, and taste. For instance, he believed that atoms of different substances had distinct shapes and sizes, leading to their unique physical properties. This early atomic theory laid the groundwork for later developments in chemistry.
Can the existence of isotopes explain the differences in properties between diamond and graphite?
Yes, the differences in properties between diamond and graphite can be explained by the existence of isotopes. Isotopes are atoms of the same element with different numbers of neutrons, which can affect the atomic structure and bonding in materials. In the case of diamond and graphite, the arrangement of carbon atoms and the bonding configuration due to isotopes lead to their distinct properties.
Types of definition?
There are various types of definitions, including lexical definitions that explain the meaning of a word, ostensive definitions that point to examples, stipulative definitions that assign meaning for a specific context, and theoretical definitions that provide a conceptual framework for understanding a particular concept or term.
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