An air particle is a small piece of matter found in the air, such as dust, pollen, or smoke. These particles can be solid or liquid and can affect air quality and human health when present in high concentrations.
An amoeba is much larger than an air particle. Amoebas can range in size from 20 to 1000 micrometers in diameter, while air particles are typically around 0.5 micrometers or smaller. This size comparison means that an amoeba is thousands of times larger than an air particle.
Smoke particles move through the air due to a combination of convection currents, diffusion, and turbulent air flow. When smoke is released, it is carried by the surrounding air, propelled by differences in temperature and pressure. Additionally, the motion of smoke particles can be influenced by gravity and air currents in the environment.
The dust particle settled on the windowsill after being stirred up by a gust of wind.
Beta particles can travel up to a few meters in air before they lose energy and are absorbed. The distance they can travel depends on the energy of the particle, with higher energy beta particles able to travel further.
The Particle Theory explains that gases consist of tiny particles that are constantly moving and have space between them. In a hot air balloon, the air inside the balloon is heated which causes the air particles to move faster and spread out, making the balloon less dense than the cooler air outside. This difference in density creates lift, allowing the balloon to rise.
The air particle with the greater force moves the other air particle in the general direction it was moving
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It is true.
yes
it will enter from air
No, but it can be suggested as gas particles
it evaporates into the air
An amoeba is much larger than an air particle. Amoebas can range in size from 20 to 1000 micrometers in diameter, while air particles are typically around 0.5 micrometers or smaller. This size comparison means that an amoeba is thousands of times larger than an air particle.
The dust particle settled on the windowsill after being stirred up by a gust of wind.
due to large air space between particle
In a hot air balloon, the air inside is heated, causing the air particles to gain energy and move faster, which decreases their density. This creates a pressure difference between the inside and outside of the balloon, allowing it to rise. Heating the air increases its volume and decreases its density, making it less dense than the surrounding cooler air and causing the balloon to float.
The 'wetness' in the air creates a more dense 'air particle' which creates humid areas and such.