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Evaporation occurs when water molecules at the surface of a liquid gain enough kinetic energy to break free from the liquid's surface and become a gas. This process is explained by particle theory as the higher-energy water molecules break away from the liquid and escape into the air, leaving behind lower-energy molecules, which cools the remaining liquid.
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What is the advantage of using the particle theory of matter?
For many applications, the Particle Theory is an adequate working model. It is known to no longer be apply in many circumstances. So pragmatism wins the day.Similarly, 25/8 is an adequate approximation of Pi for most 'back of the envelope' calculations, even though it is known to be inexact.
What is the significance of the Feynman propagator in quantum field theory and how does it contribute to the understanding of particle interactions?
The Feynman propagator in quantum field theory represents the probability amplitude for a particle to travel from one point to another in spacetime. It plays a crucial role in calculating the probabilities of particle interactions and helps in understanding the behavior of particles in quantum field theory. By using the Feynman propagator, physicists can analyze and predict the outcomes of particle interactions, leading to a deeper understanding of the fundamental forces and interactions in the quantum world.
What inventions were made using the theory of relativity?
using the theory of relativity he proved that man can travel in time and he can become invisible and with this knowledge atom bomb is invented the expression e=mc2 is the key whidh explains the mass energy equivalence
How do you memorize the particle theory of matter?
To memorize the particle theory of matter, try breaking it down into key points: matter is made of tiny particles, different substances have different kinds of particles, these particles are always in motion, and they attract each other. Using visual aids, drawing diagrams, and practicing with flashcards can also help reinforce your memory.
How conduction of heat using the particle theory?
In the particle theory, heat conduction is explained by the transfer of kinetic energy between particles. When a material is heated, its particles gain energy and vibrate more rapidly. These particles then collide with neighboring particles, transferring some of their energy and causing them to vibrate faster. This process continues throughout the material, leading to the overall transfer of heat.
Using the particle theory of matter explain why some solutes are soluble in a solvent but another is not?
cool stuff init
Evaporation using particle theory?
The Particle theory maintains that particles move more rapidly as they get more warm. As the continue to heat up, they become less dense and move even more. As this process continues, the particles expand and separate which changes their state from liquid to gas.
Why particles of solid do not move at all?
Solids do not flow because particles in a solid are so close together and their forces of attraction are so strong that they cannot flow past one another. If you have a 8th grade Science & Technology Textbook, you can look at page 89 in the second paragraph (Explaining Flow Using Particle Theory) and 2nd sentence, which is your answer that you are looking for (Using the particle theory explain why solids do not flow?)
Which theory is his counselor using to explain this to John?
Diathesis-stress Theory
Why can a sugar cube dissolve in a cup of hot water using the particle theory?
Eat dik
1 Explain the advantages and disadvantages of Best Buys different employee programs using Maslows hierarchy of needs theory reinforcement theory and expectancy theory?
Explain the advantages and disadvantages of Best Buy's different employee programs using Maslows hierarchy of needs theory reinforcement theory and expectancy theory?
How would you describe air and water resistance using the particle theory?
we describe air by answering it's properties
How would you classify a soft drink when the sealed bottle is on the store shelf using the particle theory of matter?
hg hg
Using particle theory to explain how a solution becomes saturated?
As a solution becomes saturated, more solute particles are added than can be dissolved by the solvent. The solvent molecules surround the solute particles, preventing further dissolution. At saturation, the rate of solute particles leaving the solution equals the rate of solute particles entering it, maintaining a dynamic equilibrium. This creates a maximum concentration of solute that the solvent can hold at a given temperature.
What is the advantage of using the particle theory of matter?
For many applications, the Particle Theory is an adequate working model. It is known to no longer be apply in many circumstances. So pragmatism wins the day.Similarly, 25/8 is an adequate approximation of Pi for most 'back of the envelope' calculations, even though it is known to be inexact.
How can you determine collision rate from Langevin theory?
Collision rate can be determined from Langevin theory by calculating the frequency of collisions between the particle and surrounding particles. This can be done by considering the particle's diffusion coefficient, the size of the particle, and the density of the surrounding medium. By using these parameters, one can estimate the collision rate based on the Langevin equation.
Give examples of separating mixtures and explain?
Evaporation-Letting water evaporate on our own or heating it so the solute is left behindFiltration- Separating based on particle sizeChromatography- Separates ink, blood, etc. Cause rise up paper at different ratesMagnetism- Using a magnet to separate magnetic material
