第二个问题是,当金星在太阳圆盘外被观测到时,它会呈现出光晕。
The second problem is that Venus exhibits a halo of light when it is seen just outside the Sun's disc.
当第一次用望远镜观测到火星时,人们从飞机上看到,火星的圆盘在地球上纵横交错。
When the planet Mars was first observed through a telescope, people saw that the round disk of the planet was crisscrossed on earth that are viewed from an airplane.
当第一次用望远镜观测到火星时,人们从飞机上看到,火星的圆形圆盘在地球上纵横交错。
When the planet Mars was first observed through a telescope, people saw that the round disk of the planet was criss-crossed on earth that are viewed from an airplane.
So, for example, in the second case, we say that we see 12 06 in terms of the kinetic energy.
比如,在第二种情况下,我们观测到,1206大小的动能。
So that would probably be de Broglie's answer for why, in fact, we're not observing the wavelength behavior of material on a day-to-day life.
所以那就可能是德布罗意关于,为什么我们无法再日常生活中,观测到物质的波动行为的答案。
It was Galileo's job, you'll remember, with his telescope to detect the otherwise undetectable spots and imperfections in this seemingly, but only seemingly, perfect moon.
你们还记得,通过望远镜,观测到这个看起来,却只是看起来完美无缺的,月亮上的黑点和缺陷,是伽利略要做的。
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