When a 6000 Å light falls on the cathode of a photo cell, photoemission takes place. If a potential of 0.8 V is required to stop emission of electron, then determine the frequency of the light energy of the incident photon work function of the cathode material threshold frequency and net energy of the electron after it leaves the surface.

Given: λ = 6000 × 10−10 m eV0 = 0.8 eV i. v = `"C"/λ` = `(3 xx 10^8)/(6 xx 10^-7)` = 0.5 × 1015 v = 5 × 1014 Hz ii. E = hv = `(6.626 xx 10^-34 xx 5 xx 10^14)/(1.6 xx 10^-19)` = `53.13/1.6 xx 10^-20 xx 10^19` E = 2.07 eV iii. ev0 = `1/2` mv2 = 0.8 eV W = hv – `1/2` mv2 = (2.07 – 0.8) eV W = 1.27 eV iv. W = hv0 v0 = `(1.27 xx 1.6 xx 10^-19)/(6.626 xx 10^-34)` = `2.032/6.626 xx 10^15` v0 = 3.06 × 1014 Hz v. Net Energy = E = hv – hv0 E = (2.07 – 1.27) eV E = 0.8 eV

When a 6000 Å light falls on the cathode of a photo cell, photoemission takes place. If a potential of 0.8 V is required to stop emission of electron, then determine the - Physics

प्रश्न

When a 6000 Å light falls on the cathode of a photo cell, photoemission takes place. If a potential of 0.8 V is required to stop emission of electron, then determine the

frequency of the light
energy of the incident photon
work function of the cathode material
threshold frequency and
net energy of the electron after it leaves the surface.

संख्यात्मक

उत्तर

Given: λ = 6000 × 10⁻¹⁰ m

eV₀ = 0.8 eV

i. v = `"C"/λ`

= `(3 xx 10^8)/(6 xx 10^-7)`

= 0.5 × 10¹⁵

v = 5 × 10¹⁴ Hz

ii. E = hv

= `(6.626 xx 10^-34 xx 5 xx 10^14)/(1.6 xx 10^-19)`

= `53.13/1.6 xx 10^-20 xx 10^19`

E = 2.07 eV

iii. ev₀ = `1/2` mv² = 0.8 eV

W = hv – `1/2` mv²

= (2.07 – 0.8) eV

W = 1.27 eV

iv. W = hv₀

v₀ = `(1.27 xx 1.6 xx 10^-19)/(6.626 xx 10^-34)`

= `2.032/6.626 xx 10^15`

v₀ = 3.06 × 10¹⁴ Hz

v. Net Energy = E = hv – hv₀

E = (2.07 – 1.27) eV

E = 0.8 eV

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Q IV. 8.Q IV. 7.Q IV. 9.

पाठ 8: Dual Nature of Radiation and Matter - Evaluation [पृष्ठ १३८]

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पाठ 8 Dual Nature of Radiation and Matter
Evaluation | Q IV. 8. | पृष्ठ १३८

When a 6000 Å light falls on the cathode of a photo cell, photoemission takes place. If a potential of 0.8 V is required to stop emission of electron, then determine the - Physics

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When a 6000 Å light falls on the cathode of a photo cell, photoemission takes place. If a potential of 0.8 V is required to stop emission of electron, then determine the - Physics

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