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If we assume that penetrating power of any radiation/particle is inversely proportional to wavelength of the particle then :            
  • a)
    a proton and an α-particle after getting accelerated through same potential difference will have equal penetrating power.
  • b)
    penetrating power of α-particle will be greater than that of proton which have been accelerated by same potential difference.
  • c)
    proton's penetrating power will be less than penetrating power of an electron which has been accelerated by the same potential difference.
  • d)
    penetrating powers can not be compared as all these are particles having no wavelength or wave nature. 
Correct answer is option 'B'. Can you explain this answer?
Most Upvoted Answer
If we assume that penetrating power of any radiation/particle is inver...
Electron have the same penetrating power.
b) an electron has greater penetrating power than a neutron.
c) an alpha particle has greater penetrating power than a gamma ray.

a) False. The penetrating power of a particle is not solely determined by its wavelength, but also by its mass and charge. Protons are more massive than electrons and have a positive charge, while electrons are much lighter and have a negative charge. Therefore, protons generally have lower penetrating power than electrons.

b) False. Neutrons have no charge and are more massive than electrons. Since the penetrating power depends on mass and charge, neutrons can penetrate more deeply into matter than electrons.

c) False. Alpha particles consist of two protons and two neutrons, making them relatively massive and positively charged. Gamma rays, on the other hand, are electromagnetic radiation and have no charge or mass. Due to their charge and mass, alpha particles have much lower penetrating power than gamma rays.
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Community Answer
If we assume that penetrating power of any radiation/particle is inver...
Mass of alpha particle is more so its penetrating power will be more
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If we assume that penetrating power of any radiation/particle is inversely proportional to wavelength of the particle then : a)a proton and an α-particle after getting accelerated through same potential difference will have equal penetrating power.b)penetrating power of α-particle will be greater than that of proton which have been accelerated by same potential difference.c)proton's penetrating power will be less than penetrating power of an electron which has been accelerated by the same potential difference.d)penetrating powers can not be compared as all these are particles having no wavelength or wave nature.Correct answer is option 'B'. Can you explain this answer?
Question Description
If we assume that penetrating power of any radiation/particle is inversely proportional to wavelength of the particle then : a)a proton and an α-particle after getting accelerated through same potential difference will have equal penetrating power.b)penetrating power of α-particle will be greater than that of proton which have been accelerated by same potential difference.c)proton's penetrating power will be less than penetrating power of an electron which has been accelerated by the same potential difference.d)penetrating powers can not be compared as all these are particles having no wavelength or wave nature.Correct answer is option 'B'. Can you explain this answer? for NEET 2024 is part of NEET preparation. The Question and answers have been prepared according to the NEET exam syllabus. Information about If we assume that penetrating power of any radiation/particle is inversely proportional to wavelength of the particle then : a)a proton and an α-particle after getting accelerated through same potential difference will have equal penetrating power.b)penetrating power of α-particle will be greater than that of proton which have been accelerated by same potential difference.c)proton's penetrating power will be less than penetrating power of an electron which has been accelerated by the same potential difference.d)penetrating powers can not be compared as all these are particles having no wavelength or wave nature.Correct answer is option 'B'. Can you explain this answer? covers all topics & solutions for NEET 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for If we assume that penetrating power of any radiation/particle is inversely proportional to wavelength of the particle then : a)a proton and an α-particle after getting accelerated through same potential difference will have equal penetrating power.b)penetrating power of α-particle will be greater than that of proton which have been accelerated by same potential difference.c)proton's penetrating power will be less than penetrating power of an electron which has been accelerated by the same potential difference.d)penetrating powers can not be compared as all these are particles having no wavelength or wave nature.Correct answer is option 'B'. Can you explain this answer?.
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