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It depends on the mixture. What is in the solution makes it act differently. Like if you put carbon dioxide with water, (pop) , it will make bubbles. But, if you put chocolate syrup in milk, it will mix completely like the pop but in a different way. So they mostly act by mixing completely into each other, depending.
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FranParticles in a solution move randomly due to kinetic energy, colliding with each other and the solvent molecules. They can interact through various forces like Van der Waals, electrostatic, and hydrogen bonding. Diffusion and Brownian motion are key behaviors exhibited by particles in a solution.
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How do particles behave in solid?
In a solid, particles are closely packed together and vibrate in fixed positions. They have a fixed shape and volume, and only have slight movements. The particles do not have enough energy to move around freely like in liquids or gases.
Electrons behave like what?
Electrons behave like particles and waves simultaneously, exhibiting wave-particle duality. They can exhibit wave-like interference patterns and particle-like behaviors such as interacting with other particles by exchanging photons.
Why do particles behave differently when observed?
Particles behave differently when observed due to the phenomenon known as wave-particle duality. This means that particles can exhibit both wave-like and particle-like behavior depending on how they are observed. When particles are observed, their wave-like properties collapse into a specific position or state, causing them to behave differently than when they are not being observed. This is a fundamental aspect of quantum mechanics and has been demonstrated through various experiments.
Are electrons waves or particles?
Electrons exhibit characteristics of both waves and particles, known as wave-particle duality. They can behave as waves in certain experiments and as particles in others.
Can electromagnetic waves can behave like what type of particles?
Electromagnetic waves can behave like particles known as photons. Photons are the quanta of light and exhibit both particle-like and wave-like properties.
