Alpha particles are actually a nucleus of a helium atom, consisting of a 2 protons and 2 neutrons, and therefore significantly larger than one single neutron. Beta particles on the other hand is electrons, much smaller than the neutron. The particle's size determine it's energy, and probability of avoiding collision.Cut short,Beta particles go long the longest of the three.Neutron shorter.Alpha particles can't penetrate a piece of paper. Travel shortest.
Volcanic ash can travel hundreds to thousands of kilometers in the air, depending on the strength of the eruption, wind patterns, and atmospheric conditions. The finer ash particles can be carried much farther than larger particles.
Alpha particles (helium nuclei) are much larger and heavier than beta (electrons) and gamma (high-energy photons). This means they do far more damage to anything they hit. However, it also means can't travel very far and can be stopped by as little as a sheet of paper. Radioactive isotopes that emit only alpha radiation are not very dangerous, the only danger is breathing in or ingesting the isotope.
Alpha particles from Thorium-232 decay have very low penetration power and can typically travel only a few centimeters in body fluids. This means that the surrounding tissues within a short distance of the particle's source would be affected by its radiation.
as in summers the particles are far apart from each other so we can say that in low temperature sound moves faster because it needs a material medium to travel. as in winters that is low temperature their are a lot of particles in air so this helps the sound to propagate and takes less time to travel. n in summers that is high temp. the particles are apart so it takes more time to travel.
Just a few inches.
Beta particles can travel a few feet in air, but they can be stopped by a thin sheet of aluminum or plastic. The distance beta particles travel depends on their energy, with higher energy particles traveling farther.
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.
Beta particles can travel several feet in the air, but their range is dependent on factors such as their energy level and the density of the air. Typically, beta particles with higher energies can travel further distances before losing their energy and stopping.
Alpha particles are actually a nucleus of a helium atom, consisting of a 2 protons and 2 neutrons, and therefore significantly larger than one single neutron. Beta particles on the other hand is electrons, much smaller than the neutron. The particle's size determine it's energy, and probability of avoiding collision.Cut short,Beta particles go long the longest of the three.Neutron shorter.Alpha particles can't penetrate a piece of paper. Travel shortest.
sound is the vibration of air particles. but think about how far all the air particles are spaced from each other. now think of how close the solid's particles are spaced to one another. more particles will vibrate and so sound travels better
Alpha particles have a range of a few centimeters in air and are stopped by a sheet of paper or human skin. Their penetration range in tissue is limited to a few cells.
Fart particles can travel up to 10 feet, but factors like the force of the fart, the environment, and the presence of clothing can influence how far they travel.
high sound particles are near, and low sound as far apart particles.
Volcanic ash can travel hundreds to thousands of kilometers in the air, depending on the strength of the eruption, wind patterns, and atmospheric conditions. The finer ash particles can be carried much farther than larger particles.
About 10cm.
That depends on the energy of the beta particles and the medium they are passing through. In air beta can travel several inches to several feet. Beta cannot pass through a single layer of aluminum foil.