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A solution is a type of mixture at the molecular/atomic level. Mixtures that are not solutions usually contain particles visible at either the microscopic or macroscopic level.
Microscopic Anatomy
The chlorophyll is a part of the leaf cell that absorbs sunlight that is then turned into glucose through the transaction of photosynthesisLeaf
Liquid level gauges are used to show the level of liquid in a container. They are most often used to view the level of liquid in tanks and boilers in an industrial setting.
If you have a large container and the opening has a large cross section and the container is kept still, the liquid inside will become flat. It will be level. The liquid will remain level. If some liquid is added or removed the surface will soon become level again. That would not happen with a solid.
A solution is a type of mixture at the molecular/atomic level. Mixtures that are not solutions usually contain particles visible at either the microscopic or macroscopic level.
Internal energy at the microscopic level and thermodynamic or mechanical energy at the macroscopic level. According to conservation of energy the sum of kinetic and potential energy is zero.
A solution is a type of mixture at the molecular/atomic level. Mixtures that are not solutions usually contain particles visible at either the microscopic or macroscopic level.
Internal energy at the microscopic level and thermodynamic or mechanical energy at the macroscopic level.
Einstein's Relativity Theory is at odds with quantum physics because Einstein's theory works at a macroscopic level, while quantum physics works at an atomic level, and things at the atomic level work differently from the macroscopic level.
Macroscopic Viewpoint: It is a form of approach for study of behaviour of matter where a certain quantity of matter is considered. In this the events occuring at the atomic or molecular level are not taken into account.Microscopic Viewpoint: It is another form of approach where the events occurring at the atomic or molecular level is considered for the study of behaviour of matter. Consider gas, each molecule at a given instant has certain position, velocity and other parameters which change, as a result of intermolecular collisions.Microscopic approach is also known as Statistical approach.To sum it up, take a ball, the macroscopic view of that ball would just be that ball, but whereas, in case of a microscopic view, thick round skin seemingly composed of puckered cracks and fissures can be revealed.
Heat does not exist at the level of atoms, at the level of the atom its kinetic energy; which is only observed as heat at the macroscopic/bulk level.Atoms with more kinetic energy bounce harder against other atoms, transferring more kinetic energy to those atoms. This has two effects at the macroscopic/bulk level, where heat is observed:direct transfer of kinetic energy results in diffusion of heat, called conductionkinetic energy pushes the atoms further apart causing a reduction in density, enabling a process called convectionif the liquid is accelerating or in a gravitational field
Microscopic Anatomy
Looking at something or a relationship at a "microscopic level" is to examine it in great detail, perhaps without reference to its surroundings or environment.
The answer depends on how closely you look at it. On the macroscopic level you could simply measure the length of ocean, lake, and river coastline as given on a world map. On a microscopic level the length becomes almost fractal-like with each particle having some additional participation in the length. At this scale the length approaches infinity.
The realm of unseen atoms, molecules, and ions in contrast to observable macroscopic entities.
Internal energy at the microscopic level and thermodynamic or mechanical energy at the macroscopic level. According to conservation of energy the sum of kinetic and potential energy is zero.