In the year since its launch, the Parker Solar Probe has collected a host of scientific data from two close passes of the Sun. In this image, the craft’s WISPR instrument saw the solar wind streaming past during the spacecraft’s first solar encounter in November 2018. The spacecraft carr […]
NASA’s Solar Dynamic Observatory, or SDO, was the first mission to be launched for NASA’s Living With a Star (LWS) Program, and is designed to understand the causes of solar variability and its impacts on Earth. SDO launched on February 11, 2010, on its journey to help us understand the
Lost in the glare following the Apollo 11 Moon landing, two intrepid robotic spacecraft flew by Mars in the summer of 1969 and returned photographs and a trove of scientific information. Launched on Feb. 25 and March 27, respectively, Mariner 6 and 7 arrived at Mars just five days apart despite bein
彗星拦截器的概念 彗星拦截器已被选为ESA新的快速任务。它将是第一个造访真正原始的彗星或其他星际物体的航天器,这些天体才刚刚开启它们的内太阳系之旅。 版权:ESA 欧洲航空局(ESA)为其宇宙视觉计划(Cosmic Vision Programme)选中了一项新的“快速任务”,名为“彗星拦截器”(Comet Interceptor)。彗星拦截器含有三个航天器,将探访真正的“原始彗星”,或其他刚刚开启内太阳系(inner Solar System)旅程的星际物体,彗星拦截器将成为执行这种任务亘古未有的先锋。 彗星拦截器的目的地是一颗尚未被发现的彗星,当这颗彗星慢慢接近地球轨道时,彗星拦截器就会飞
就像灰尘会聚积在家里的角落和书架上,它们也会在太阳系中堆积起来,不同的是,星际尘埃聚成的是好几个环状的圈圈,围绕着我们的太阳。这些尘埃环恰好与行星的运行轨道重合,因为在行星绕太阳运行的时候,会通过万有引力的作用拖拽着这些星际尘埃,最终形成环绕太阳的尘埃圆环。 在大约46亿年前,太阳系从一片混沌中开始诞生,小行星相互冲击、彗星东碰西撞,星际尘埃就是由当时残存的碎石和碎屑组成的。这些星际尘埃散布在整个太阳系中,但又主要聚集在地球和金星的运行轨道上,形成满是颗粒的圆环,从地球上用望远镜就能看得到。通过研究这些星际尘埃的组成、由来和运动,科学家探寻着行星的诞生和太阳系中一切可见物质的组成。 最近的两项
