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Question & Answer
Choose the Best Answer
It shows that electrons only behave as particles.
It indicates that electrons can only exist in one state at a time.
It demonstrates the wave-particle duality of electrons, where they exhibit both wave-like and particle-like properties.
It proves that electrons cannot pass through slits without being measured.
Understanding the Answer
Let's break down why this is correct
The interference pattern shows that the electrons travel as waves and also hit the screen as tiny particles. Other options are incorrect because Some people think electrons are only particles and ignore the interference pattern; People may believe an electron can only be in one state.
Key Concepts
Wave-like Behavior of Electrons
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Deep Dive: Wave-like Behavior of Electrons
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Definition
This topic focuses on the wave-like behavior of electrons, including electron diffraction phenomena like the double-slit experiment and De Broglie waves. It covers the wave equation for electrons and the interpretation of their wave-particle duality.
Topic Definition
This topic focuses on the wave-like behavior of electrons, including electron diffraction phenomena like the double-slit experiment and De Broglie waves. It covers the wave equation for electrons and the interpretation of their wave-particle duality.
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