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High-frequency light, such as ultraviolet or gamma rays, interacts more strongly with small particles compared to large particles. This is due to the wave-particle duality of light and the fact that smaller particles, like atoms and molecules, have dimensions comparable to the wavelength of high-frequency light, allowing for significant interaction. In contrast, larger particles tend to scatter or reflect light rather than interact with it at the quantum level. Therefore, small particles are more affected by high-frequency light.
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Why were a few alpha particles reflected at large angles?
yes it is
Process which cells get rid of large particles?
Cells called macrophages are responsible for getting rid of large particles in the body through a process called phagocytosis. In this process, macrophages engulf and digest the large particles, such as bacteria or debris, to maintain cellular homeostasis and protect the body from foreign invaders.
Why is the motion of one particle in a gas independent of the motion of the other particles?
In an ideal gas, particles are assumed to be point masses with no volume and no intermolecular forces acting between them. Therefore, the motion of one particle is independent of the motion of the other particles because they do not interact with each other. Each particle moves freely and randomly in all directions without influencing the motion of other particles.
What is phagocytosis and how does it work?
large particles or cells are engulfed by the cell plasma membrane
Why do large particles in a rock layer cause less friction?
Large particles have fewer points of contact with adjacent particles in a rock layer, leading to less interlocking and friction. Smaller particles, on the other hand, have more contact points, which can create more friction as they interlock more closely.
Why were a few alpha particles reflected at large angles?
yes it is
What is the reason why alpha has the strongest ionizing power?
Alpha particles have the highest ionizing power because they are large, positively charged particles that interact strongly with electrons in matter. Due to their size and charge, alpha particles have a high probability of colliding with and ionizing atoms in their path, resulting in the transfer of energy and the creation of ion pairs.
Which form of radiation is most ionising?
Alpha radiation is the most ionizing form of radiation because it consists of alpha particles, which are large and heavy and interact strongly with matter, causing a high degree of ionization.
What is made up of coarse large soil particles?
made up of course, large soil particles
Are particles large?
Not at all! Particles are tiny little things
Why do large particles in a rock layer cause less friction than small particles?
Large particles have less total surface area, so caused less friction then the smaller particles do
Which type of radiation is most easily absorbed by shielding?
Alpha radiation is the most easily absorbed by shielding because it consists of large, heavy particles that interact strongly with other materials. Due to their large size and charge, alpha particles lose their energy quickly when they collide with shielding materials, making them easier to stop compared to other types of radiation.
What is the uptake of large particles called?
The uptake of large particles is called phagocytosis. Phagocytosis is a process where cells, such as macrophages and neutrophils, engulf and internalize large particles, such as bacteria, cell debris, or foreign substances, for degradation and elimination.
Process which cells get rid of large particles?
Cells called macrophages are responsible for getting rid of large particles in the body through a process called phagocytosis. In this process, macrophages engulf and digest the large particles, such as bacteria or debris, to maintain cellular homeostasis and protect the body from foreign invaders.
What materials absorb alpha?
Alpha particles can be effectively absorbed by materials with a low atomic number, such as paper, plastic, or even a few centimeters of air. Because alpha particles have a relatively large mass and a positive charge, they interact strongly with matter and lose their energy quickly. Consequently, they can be stopped by thin barriers, making them less penetrating than beta particles or gamma rays.
Why is the motion of one particle in a gas independent of the motion of the other particles?
In an ideal gas, particles are assumed to be point masses with no volume and no intermolecular forces acting between them. Therefore, the motion of one particle is independent of the motion of the other particles because they do not interact with each other. Each particle moves freely and randomly in all directions without influencing the motion of other particles.
What is phagocytosis and how does it work?
large particles or cells are engulfed by the cell plasma membrane
