0
What else can I help you with?
How far can beta particle travel through air?
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.
How far does beta particle move in the air?
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.
How far does beta radiation travel through the air?
Beta radiation can travel several feet in the air, but its range is limited. The distance it travels depends on the energy of the beta particles and the density of the material it's traveling through. Beta radiation can be stopped by materials such as aluminum or even a few millimeters of plastic.
How far can beta plus particle travel?
Beta plus particles have a limited range in a given medium, typically traveling a few millimeters to several centimeters depending on their energy. Higher energy beta plus particles can penetrate further. In dense materials like lead, their range may be less than in air.
How far can gamma radiation travel in air and what factors affect its range?
Gamma radiation can travel several meters in air, but its range can be affected by factors such as the energy of the radiation, the density of the air, and any obstacles in its path.
How far can beta particle travel through air?
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.
How far will beta travel?
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.
How far does beta particle move in the air?
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.
How far does beta radiation travel through the air?
Beta radiation can travel several feet in the air, but its range is limited. The distance it travels depends on the energy of the beta particles and the density of the material it's traveling through. Beta radiation can be stopped by materials such as aluminum or even a few millimeters of plastic.
How far does alpha travel in air?
About 10cm.
How far can beta plus particle travel?
Beta plus particles have a limited range in a given medium, typically traveling a few millimeters to several centimeters depending on their energy. Higher energy beta plus particles can penetrate further. In dense materials like lead, their range may be less than in air.
Why do alpha particles travel shorter distance in air than beta particles?
Alpha particles are larger and heavier than beta particles, so they interact more readily with air molecules through collisions. This causes alpha particles to lose their energy more quickly and travel shorter distances in air compared to beta particles, which are smaller and lighter. Additionally, alpha particles have a higher ionization potential, leading to more interactions with air molecules and a shorter range in air.
How far does sound travel through the air?
990
How far can air pollution travel?
Iv'e heard it can travel over 50 miles depending on how much pollution there is in the air.
What is the range of beta particles in air as compare to alpha particles?
What is the range of beta particles in air as compare to alpha particles?Read more: What_is_the_range_of_beta_particles_in_air_as_compare_to_alpha_particles
How do sound waves travel though the air?
far away
How far do beta particles travel?
About 2,000 miles. The speed of individual beta particles depends on how much energy they have, and varies over a wide range. It is their excess energy, in the form of speed, that causes harm to living cells. When transferred, this energy can break chemical bonds and form ions.
