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Draw a graph between intensity of light ...

Draw a graph between intensity of light and photoelectric current for a given frequency .

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To draw a graph between the intensity of light (I) and photoelectric current (I_ph) for a given frequency, we can follow these steps: ### Step 1: Understand the Relationship The photoelectric effect states that when light of a certain frequency is incident on a metal surface, it can cause the emission of electrons. The intensity of light is related to the number of photons striking the surface per unit time. ### Step 2: Set Up the Axes - On the **x-axis**, we will plot the **photoelectric current (I_ph)**. - On the **y-axis**, we will plot the **intensity of light (I)**. ...
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MODERN PUBLICATION-DUAL NATURE OF RADIATION AND MATTER -Revision Exercises (Very Short Answer Questions)
  1. Define the term 'stopping potential' in relation to photoelectric effe...

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  2. Einsteins photoelectric equation is

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  3. Draw a graph between intensity of light and photoelectric current for ...

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  4. Mention any two types of electron emission.

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  5. How does kinetic energy of ejected photoelectrons depend upon the freq...

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  6. Explain with the help of Einstein's photoelectric equation any two obs...

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  7. At the stopping potential, photoelectric current is "".

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  8. Draw a graph between stopping potential and the frequency of two metal...

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  9. THERMIONIC EMISSION

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  10. SECONDARY EMISSION

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  11. FIELD EMISSION

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  12. Green light ejects photoelectrons from a given photosenstive surface w...

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  13. Production of X - ray and emission of electron in photoelectric effect...

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  14. An electron and a proton are moving with same speed . Which will have ...

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  15. What Is saturation current in photoelectric effect ?

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  16. Is photoelectric emission possible at all frequencies? Give reason for...

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  17. The work function of sodium is 2.3 eV . The threshold wavelength of so...

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  18. An electron and proton are possessing the same amount of kinetic energ...

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  19. What will be the de Broglie wavelength associated with a ball of mass ...

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  20. What would be the de Broglie wavelength of an electron possessing 100 ...

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