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Atomic Structure01:33

Atomic Structure

Overview
Nuclear Stability03:18

Nuclear Stability

Protons and neutrons, collectively called nucleons, are packed together tightly in a nucleus. With a radius of about 10−15 meters, a nucleus is quite small compared to the radius of the entire atom, which is about 10−10 meters. Nuclei are extremely dense compared to bulk matter, averaging 1.8 × 1014 grams per cubic centimeter. If the earth’s density were equal to the average nuclear density, the earth’s radius would be only about 200 meters.
To hold positively charged protons together in the...
Nuclear Fusion02:45

Nuclear Fusion

The process of converting very light nuclei into heavier nuclei is also accompanied by the conversion of mass into large amounts of energy, a process called fusion. The principal source of energy in the sun is a net fusion reaction in which four hydrogen nuclei fuse and ultimately produce one helium nucleus and two positrons.
A helium nucleus has a mass that is 0.7% less than that of four hydrogen nuclei; this lost mass is converted into energy during the fusion. This reaction produces about...
Atomic Nuclei: Nuclear Spin01:08

Atomic Nuclei: Nuclear Spin

All atomic particles possess an intrinsic angular momentum, or 'spin'. Electrons, protons, and neutrons each have a spin value of ½, although protons and neutrons in nuclei may have higher half-integer spins owing to energetic factors.
Atomic nuclei have a net nuclear spin, , which can have an integer or half-integer value. In atomic nuclei, the spins of protons are paired against each other but not with neutrons, and vice versa. Consequently, an even number of protons does not contribute to...
Atomic Nuclei: Nuclear Spin State Overview01:03

Atomic Nuclei: Nuclear Spin State Overview

NMR-active nuclei have energy levels called 'spin states' that are associated with the orientations of their nuclear magnetic moments. In the absence of a magnetic field, the nuclear magnetic moments are randomly oriented, and the spin states are degenerate. When an external magnetic field is applied, the spin states have only 2 + 1 orientations available to them. A proton with = ½ has two available orientations. Similarly, for a quadrupolar nucleus with a nuclear spin value of one, the...
Atomic Structure01:17

Atomic Structure

The Greek philosopher Democritus proposed that everything on Earth is made up of tiny particles called atomos, Greek for "indivisible," from which the modern term "atom" is derived. In the 19th century, John Dalton proposed the atomic theory that is still largely correct today. He put forth five postulates to explain how atoms made up the world around us. (1) All matter is composed of infinitely small particles or atoms. (2) All atoms of a given element are identical to one another and (3) are...

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相关实验视频

Updated: May 14, 2026

Synthesis of Core-shell Lanthanide-doped Upconversion Nanocrystals for Cellular Applications
13:51

Synthesis of Core-shell Lanthanide-doped Upconversion Nanocrystals for Cellular Applications

Published on: November 10, 2017

火星:一个新的核心结晶体制.

Andrew J Stewart1, Max W Schmidt, Wim van Westrenen

  • 1Institute for Mineralogy and Petrology, Eidgenössische Technische Hochschule Zurich, CH 8092 Zurich, Switzerland.

Science (New York, N.Y.)
|June 2, 2007
PubMed
概括

火星的核心是液态的,没有像地球那样富含铁的内核. 星球冷却可能会通过"雪核"或"硫化物内核"模型导致结晶.

科学领域:

  • 行星科学 行星科学
  • 地质物理学 地质物理学
  • 固土地质化学 固土地质化学

背景情况:

  • 火星核心的演化通常与地球的演化相提并论.
  • 以前的模型假设类似的核心结构和进化路径.

研究的目的:

  • 为了研究火星核心的物理状态和结晶行为.
  • 为了确定火星是否发展出富含铁的内核.

主要方法:

  • 在铁-硫和铁--硫系统的高压和高温实验.
  • 模拟的压力代表火星的核心.

主要成果:

  • 火星核心目前完全是液态的.
  • 实验数据表明,火星不会形成一个富含铁的内核.
  • 预计结晶会遵循"雪核"或"硫化物内核"模型.

结论:

  • 火星核心的演化与地球的演化有所不同.
  • 火星未来的核心结晶与地球的结晶会有很大的不同.
  • 需要新的模型来解释火星核心动力学.

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