球粒陨石

The meteorite was classified as chondritic, indicating its origin from an undifferentiated asteroid.
这颗陨石被归类为球粒质的，表明它来自一个未分化的小行星。
Chondritic meteorites provide valuable insights into the early solar system and the processes that formed it.
球粒质陨石为我们提供了深入了解早期太阳系及其形成过程的宝贵线索。
The study of chondritic meteorites has helped scientists understand the composition of asteroids in the asteroid belt.
研究球粒质陨石帮助科学家了解小行星带中小行星的组成。
Unlike achondrites, chondritic meteorites contain small spherical particles called chondrules.
与无球粒陨石不同，球粒质陨石含有称为球粒的小球形颗粒。
The isotopic analysis of chondritic meteorites can reveal information about the age and origin of the solar system.
对球粒质陨石进行同位素分析可以揭示有关太阳系年龄和起源的信息。
Chondritic meteorites are often used as analogs for studying the conditions of the early Earth.
球粒质陨石常被用作研究早期地球条件的参照物。
The presence of chondrules in chondritic meteorites suggests that they were formed by processes occurring in the early solar system.
球粒质陨石中的球粒的存在表明它们是在早期太阳系中形成的。
Chondritic meteorites are divided into several types based on their chemical compositions, such as LL, L, H, and LL chondrites.
根据化学成分的不同，球粒质陨石被分为几种类型，如LL、L、H和LL球粒质陨石。
Researchers have found that chondritic meteorites can contain organic compounds, providing clues to the origins of life on Earth.
研究人员发现，球粒质陨石可能含有有机化合物，为地球上生命的起源提供了线索。
The study of chondritic meteorites is crucial for understanding the history and evolution of our solar system.
研究球粒质陨石对于理解我们太阳系的历史和演化至关重要。