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Does an alpha particle and beta particle has the same speed in a magnetic field?
Alpha particles with the same energy as beta particles have much less speed, magnetic field or no.
Why beta particales are harder to stop than alpha particales?
Beta particles have a higher penetrating ability compared to alpha particles because they are smaller and have higher energy levels. This allows beta particles to travel further and penetrate deeper into materials, making them harder to stop than alpha particles. Additionally, beta particles can travel faster than alpha particles, increasing their ability to penetrate materials.
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.
Is there a connection between the speed of alpha beta and gamma radiation?
None whatsoever -- these three phenomena have almost nothing in common beyond (1) they all might come from radioactive material and (2) scientists of about 100 years knew so little about them that they simply named them the first three letters of the greek alphabet.
What types of radiation particles have no weight?
Gamma rays are the only ones. Alpha particles are helium nuclei, and Beta particles are electrons or positrons, all of these have mass.
Alpha particles ejected from the nucleus travel at the speed of light?
Alpha particles are emitted from the nucleus at high speeds, typically around 5-10% of the speed of light. They move with such energy due to the strong repulsive force between the positively charged alpha particle and the remaining nucleus.
Does an alpha particle and beta particle has the same speed in a magnetic field?
Alpha particles with the same energy as beta particles have much less speed, magnetic field or no.
What is the speed of alpha particles in a vacuum?
The speed of alpha particles in a vacuum can vary, but typically ranges from about 15,000 to 30,000 kilometers per second. These particles are emitted from the decay of certain radioactive materials and carry a positive charge.
Do beta particles travel further than alpha particles?
Yes, beta particles typically travel further than alpha particles because they have a higher energy level. Alpha particles are heavier and more charged, so they interact with matter more readily and have a shorter range. Beta particles have less mass and charge, allowing them to penetrate further.
What are two type forms of radiation?
Two types of radiation are electromagnetic radiation, such as X-rays and microwaves, which travel in waves at the speed of light; and particle radiation, such as alpha and beta particles, which consist of high-speed particles emitted from a radioactive source.
What is a fast moving beta particle?
Gamma Rays are electromagnetic radiation , just like light is, and it travels the speed of light, 3 x 10^8 m/s . It will always be the fastest because alpha's & beta's are particles with mass and cannot travel the speed of light. The speeds of alpha's & beta's can be different in different situations and do not always have the same speed, like gammas.
How far can alpha particles travel through air?
Just a few inches.
Why beta particales are harder to stop than alpha particales?
Beta particles have a higher penetrating ability compared to alpha particles because they are smaller and have higher energy levels. This allows beta particles to travel further and penetrate deeper into materials, making them harder to stop than alpha particles. Additionally, beta particles can travel faster than alpha particles, increasing their ability to penetrate materials.
How does a gravitational field affect alpha particles beta particles and gamma radiation?
Gamma rays are a form of electromagnetic radiation, and therefore travel at the speed of light. This would require an extremely massive gravitational field, i.e. an extremely massive object, on the scale of stars. The same goes for beta particles; electrons and positrons, who already travel at nearly the speed of light due to their low mass. Alpha particles, however, due have some mass, and therefore travel at only 5% the speed of light, still fast enough to escape the Earth, but not fast enough to be affected by larger planets, perhaps.
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.
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
What do alpha particles leave charged in their path when they travel through matter?
Charged ions
