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when the particles gain energy,they move more vigorously.pressure increases but the volume remains constant.therefore,the matter changes shape as the particles use this energy to break the attractive forces between them....
Particles of gas affect each other's motion through collisions. When gas particles collide, they can transfer energy and momentum to each other, causing changes in speed and direction. These collisions influence the overall behavior of the gas, such as its pressure, temperature, and volume.
Gas particles are in constant random motion and move independently of each other, only interacting through collisions. These collisions can change the direction and speed of the particles, leading to changes in pressure and volume of the gas.
No, particles do not fall to Earth specifically due to temperature increases. Temperature changes can affect air and ocean currents, leading to weather patterns that may transport particles or pollutants from one region to another, but the particles themselves do not fall due to temperature increases alone.
how changes in the environment affect a community of organisms
The particle model of matter describes matter as being made up of tiny particles (atoms and molecules) that are in constant motion. Changes in temperature or pressure affect the motion of these particles. With an increase in temperature, the particles move faster, leading to a change in state (e.g., solid to liquid to gas). Changes in pressure can also affect the arrangement and movement of particles, causing changes in state.
Fast vibrations can cause particles in a system to move more quickly and collide with each other more frequently. This can lead to increased energy and changes in the overall behavior of the particles, such as increased temperature or changes in phase.
when the particles gain energy,they move more vigorously.pressure increases but the volume remains constant.therefore,the matter changes shape as the particles use this energy to break the attractive forces between them....
Quantum inertia refers to the resistance of particles to changes in their motion at the subatomic level. It influences how particles move and interact with each other, affecting their behavior and properties.
Particles of gas affect each other's motion through collisions. When gas particles collide, they can transfer energy and momentum to each other, causing changes in speed and direction. These collisions influence the overall behavior of the gas, such as its pressure, temperature, and volume.
Changes in the geosphere, such as volcanic eruptions or earthquakes, can release gases and particles into the atmosphere. Volcanic eruptions, for example, can release sulfur dioxide and ash that can affect weather patterns and block sunlight. These changes can impact air quality, climate, and even human health.
Gas particles are in constant random motion and move independently of each other, only interacting through collisions. These collisions can change the direction and speed of the particles, leading to changes in pressure and volume of the gas.
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Characteristics like temperature, pressure, and state (solid, liquid, gas) can affect physical changes in matter. Additionally, factors like size and shape of the particles can influence how matter responds to external conditions and undergoes physical changes.
When heat is applied to a substance, the particles gain energy and move more rapidly, causing the space between particles to increase. As the particles move faster, they spread out, creating more distance between them. This can lead to expansion or changes in the state of matter, such as melting or boiling.
Mass is an extensive property. Because it depends upon on no of particles. No particles changes mass changes.