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A microscopic particle that invades a cell and often destroys it?
Virus
What is a microscopic particle that invades a cell and often destroys it?
virus
What are microscopic particles of matter that are smaller than molecules?
particle
Microscopic particle that invades a cell and destroys it?
A virus is a microscopic particle that invades a cell, takes over its machinery to replicate, and ultimately destroys the cell as part of its life cycle.
What is relation between wavelength of light and uncertainly in the position of microscopic particles?
The shorter the wavelength of light used to observe a microscopic particle, the more accurately its position can be determined. This is because the smaller wavelength allows for a more precise measurement of the particle's location. Conversely, longer wavelengths lead to greater uncertainty in the particle's position due to wave-particle duality.
What are the different particle sizes that are transported?
Microscopic to boulder size particles are transported during erosion.
Microscopic particle that invades a cell and often destroys it?
A virus is a microscopic being that can invade and destroy a cell. Viruses have some, but not all, of the characteristics of living things.
Is pollen a particle?
Yes, pollen is a type of particle. It consists of microscopic grains containing male reproductive cells of plants. These particles are typically spread by the wind or insects for pollination.
What is both a wave and a particle and is responsible for the sense of sight?
light
Why heisenberg uncertainity principle apply on microscopic particle?
The Heisenberg Uncertainty Principle applies to microscopic particles because at that scale, the act of measuring one property (like position) with high accuracy unavoidably leads to increased uncertainty in another property (like momentum). This fundamental limitation arises from the wave-particle duality of particles, where their behavior can be described by both wave and particle-like properties simultaneously, leading to uncertainty in their exact characteristics.
Which subatomic particle has a greater mass proton or element?
An "element" is not a subatomic particle. Your question makes no sense and is therefore unanswerable.Another answer:Since an element is not a subatomic particle, the only answer can be a proton.
How did the uncertainty principle change physics?
according to it ,it is impossible to determine position and wavelength of a particle simultaneously in microscopic world which gave rise to quantum phy
