read your book. ;) but no, smaller ones move faster.
In general, smaller particles move faster than larger ones due to their higher kinetic energy at a given temperature. However, the frequency and force of collisions depend on factors such as particle concentration and temperature, not just particle size. Smaller particles can indeed collide more frequently but not necessarily more forcefully than larger particles.
I'm not sure what "ubatomic particles" are. If you may be referring to subatomic particles, these are particles that are smaller than atoms, such as electrons, protons, and neutrons. They are the building blocks of atoms.
Particles are smaller
Yes, colloids have particles larger than those in a solution, typically between 1-1000 nanometers. In contrast, solutions have particles smaller than 1 nanometer and do not scatter light.
The size of the particles in the mixture determines whether it is a colloid or a suspension. Colloids have particles smaller than 1 micrometer that do not settle out, while suspensions have larger particles that settle over time. Additionally, suspensions typically appear cloudy or opaque, while colloids appear more transparent.
Subatomic particles such as electrons, protons, and neutrons are smaller than an atom. Additionally, quarks and leptons are fundamental particles that make up subatomic particles.
A sieve or strainer is frequently used to separate particles from a mechanical mixture based on differences in particle size. This allows smaller particles to pass through while larger particles are retained, creating a separation based on particle size.
When gas is forced into a smaller space, the pressure of the gas increases because the molecules are more confined and collide with the walls more frequently. The volume of the gas decreases while the temperature remains constant. This relationship is described by Boyle's Law.
a colloid has smaller particles than a solution
Yes - all atoms are made of smaller particles. Those particles are protons, neutrons, and electrons.
Colloid particles are smaller than suspensions particles.
In a way they do, but even smaller "particles" are called atoms.
If smoke particles in Brownian motion are much larger, you would expect to observe slower and more visible movements as they collide with air molecules, due to their increased mass and inertia. This might cause them to exhibit less chaotic and more predictable paths compared to smaller particles.
No, a solution has much smaller particles than a colloid. In a solution the particles are individual atoms, molecules, or ions.
Yes, the average sediment size tends to decrease downstream due to the sorting process during transportation. As water flow velocity decreases, it can no longer carry larger particles, leading to their deposition closer to the source. Smaller particles are carried farther downstream before settling due to their lighter weight.
Yes, because smaller particles are more exposed to air (large surface area).
particle is a general term. subatomic particles are smaller than atoms. dirt particles, for example, are much bigger than atoms
Molecules are smaller. Sub atomic particles are even smaller