Thekey difference能量和物质之间能量没有可测量的大量的whereas matter has a measurable mass.
Energy and matter are two very important quantities in physics. These concepts hold a very important place in the fields of physics, theory of relativity, astronomy, cosmology, astrophysics and stellar evolution. It is extremely crucial to have a solid understanding of these concepts in order to excel in any of those fields.
内容
1.Overview and Key Difference
2.世界卫生大会t is Energy
3.什么事
4.Side by Side Comparison – Energy vs Matter in Tabular Form
5.概括
什么是能量?
Energy is a non-intuitive concept. The term “energy” comes from the Greek word “energeia”, which means operation or activity. In this sense, energy is the mechanism behind an activity. Moreover, energy is not a directly observable quantity. However, we can calculate it by measuring external properties.
We can find energy in many forms.动能,thermal energy和potential energyare to name a few. In the past, people thought energy was a conserved property in the universe, but the development of the special theory of relativity changed this idea. The theory of relativity, along with quantum mechanics, showed that energy and mass are interchangeable. Thus, giving rise to the能源 - 群众保护宇宙。
However, whennuclear fusion or nuclear fissionis not present, the energy of a system is conserved. Kinetic energy is the energy that causes the movements of an object while potential energy arises from the energy stored within an object, due to the object’s position, arrangement or state. Moreover, thermal energy arises due to temperature.
科学家仍然认为,这个宇宙中还有其他类型的能量,尚待发现。他们将这种能量归类为暗能量,他们认为这是宇宙总能量的很大一部分。
什么事?
In the past, matter was another name for “material”. In this context, matter was everything that was tangible. However, with Einstein postulating the theory of relativity in 1905, almost everything classical broke down. He went on to show that waves sometimes behaved as particles and particles behaved as waves. Thus, this was known as the wave-particle duality. It led to the union between mass and energy; both of these quantities are two forms of matter.
Moreover, we can categorize matter according to many criteria. By the physical form, we can categorize it as gas, liquid, solid, and plasma. By detection methods, we can separate it as normal matter and暗物质. Moreover, by the type of the quantity measured, it is in two types, as mass and waves.
The famous equation E = mc2gives us the amount of energy we can get from “m” amount of mass. In the universe, the amount of matter is conserved. Furthermore, the reactions in the sun lead to a nuclear fusion where mass transforms into energy. High energy photon collisions produce matter-antimatter pairs where energy transforms into matter. In the theory of relativity, mass is not an absolute quantity. A mass moving with a high velocity with respect to the observer will display more mass than a mass at rest.
能源和物质有什么区别?
Energy is the ability to do work while matter is any substance that has mass and takes up space by having volume. So, the key difference between energy and matter is that energy has no measurable mass, whereas matter has a measurable mass. Similarly, energy has no volume while matter occupies a measurable volume. Therefore, stemming from the above is another significant difference between energy and matter. That is; energy is a property of an object, whereas matter is any object that has a mass and volume.
以下信息图显示了与能量和物质之间差异有关的更多比较。
摘要 - 能量与重要
Energy and matter are closely related terms. More importantly, matter comes in two forms as energy and mass. Matter is any substance that has a mass and a volume, but energy is a property of a substance. Hence, the key difference between energy and matter is that energy has no measurable mass whereas matter has a measurable mass.
Reference:
1. Helmenstine, Anne Marie, Ph.D. “Why Are Light and Heat Not Matter?” ThoughtCo, Nov. 20, 2018,Available here.
Image Courtesy:
1.“ 3489395”(CC0)通过Pixabay
2. “Physics matter state transition 1 en” By ElfQrin – Own work(CC BY-SA 4.0)viaCommons Wikimedia
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