A hydrogen discharge lamp sends photons onto a sodium cathode with work function of 2.75eV 1)...
A hydrogen discharge lamp sends photons onto a sodium cathode with work function of 2.75eV
1) What is the cutoff frequency associated with this work function?
2) what is its wave length?
3) If the hydrogen photons have wavelength of 434 nm =, what is its kinetic energy of the photoelectrons (non-relativistic)?
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A hydrogen discharge lamp sends photons onto a sodium cathode
with work function of 2.75eV
1)...
The work function for silver is 4.73 eV. (a) Find the cutoff wavelength for silver. nm...
The work function for silver is 4.73 eV. (a) Find the cutoff wavelength for silver. nm (b) What is the lowest frequency of light incident on silver that releases photoelectrons from its surface? Hz (c) If photons of energy 5.87 eV are incident on silver, what is the maximum kinetic energy of the ejected photoelectrons? eV
The work function for iron is 4.50 eV. (a) Find the cutoff wavelength for iron. nm...
The work function for iron is 4.50 eV. (a) Find the cutoff wavelength for iron. nm (b) What is the lowest frequency of light incident on iron that releases photoelectrons from its surface? Hz (c) If photons of energy 6.27 eV are incident on iron, what is the maximum kinetic energy of the ejected photoelectrons? eV
The work function for iron is 4.50 ev. (a) Find the cutoff wavelength for iron. nm...
The work function for iron is 4.50 ev. (a) Find the cutoff wavelength for iron. nm (b) What is the lowest frequency of light incident on iron that releases photoelectrons from its surface? Hz (c) If photons of energy 5.94 eV are incident on iron, what is the maximum kinetic energy of the ejected photoelectrons? ev Need Help? Read It
C please The work function for lead is 4.14 ev. (a) Find the cutoff wavelength for...
C please
The work function for lead is 4.14 ev. (a) Find the cutoff wavelength for lead. 299.5 nm (b) What is the lowest frequency of light incident on lead that releases photoelectrons from its surface? 1.0015 Hz (c) If photons of energy 5.84 ev are incident on lead, what is the maximum kinetic energy of the ejected photoelectrons? 1.66 Your response is within 10% of the correct value. This may be due to roundoff error, or you could have...
Help! Consider photons of wavelength λ W= 1.75eV: 4. 261 nm incident onto a metal with...
Help!
Consider photons of wavelength λ W= 1.75eV: 4. 261 nm incident onto a metal with work function a. What is the frequency of this incident light? (1pt) b. What is the encrgy of a photon of this light? (Ipt) What will the kinetic energy be for an electron emitted from the metal? (2pt) c. d. What would the stopping voltage be for this set up? (2pt)
A lithium target is irradiated with a 248 nm wavelength laser. The work function of lithium...
A lithium target is irradiated with a 248 nm wavelength laser. The work function of lithium is 2.9 eV. Find: (a) The minimum frequency of photons that would exhibit the photoelectric effect in lithium. (b) The maximum velocity (in meters per second) of photoelectrons observed. (c) Now the same laser is used on a platinum target (work function of 5.12 eV), instead of lithium. Which of the following statements is correct? Justify to get full credit. (i) Photoelectrons from platinum...
it is actually 30% more kinetic energy not less incident photons (2) When monochromatic light with...
it is actually 30% more kinetic
energy not less
incident photons (2) When monochromatic light with wavelength 496 nm is incident on a certain photo-sensitive material, photoelectrons are liberated. When violet light with wavelength 400 nm is incident on the same surface, photoelectrons are liberated but with 30% less kinetic energy than before. What is the work function of the photo-sensitive material? photo- electrons photo- sensitive material
Photoelectric 1 A Sodium photoelectric surface with a work function of 2.3 eV is illuminated by...
Photoelectric 1 A Sodium photoelectric surface with a work function of 2.3 eV is illuminated by electromagnetic radiations and emits electrons. The emitted electrons travel towards a negatively charged cathode. For the electrons emitted from the Sodium surface, calculate: - The maximum Kinetic Energy of the electrons Their speed at this maximum Kinetic Energy. Calculate the wavelength of the radiation that is incident on the Sodium surface Calculate the minimum frequency of light that will cause the emission of electrons....
Please show all work and answer all questions A 1.50mW laser produces photons of wavelength 689...
Please show all work and answer all questions
A 1.50mW laser produces photons of wavelength 689 nm. a. What is the frequency of the photons? b. What is the energy in Joules and electron volts for the photons? c. How many photons per second does the laser emit? d. If the laser is used to produce photo electrons in a photoelectric experiment and the maximum kinetic energy of the electrons is found to be 0.800 eV, what is the work...
just need help on part b. Thanks Sodium has a work function of 2.46 eV (a)...
just need help on part b. Thanks
Sodium has a work function of 2.46 eV (a) Find the cutoff wavelength and cutoff frequency for the photoelectric effect wavelength 504.1 frequency 5.951E14Hz nm (b) What is the stopping potential if the incident light has a wavelength of 164 nm? 7.6 Your response differs from the correct answer by more than 10%. Double check your calculations. V
The work function for iron is 4.50 ev. (a) Find the cutoff wavelength for iron. nm (b) What is the lowest frequency of light incident on iron that releases photoelectrons from its surface? Hz (c) If photons of energy 5.94 eV are incident on iron, what is the maximum kinetic energy of the ejected photoelectrons? ev Need Help? Read It
C please
The work function for lead is 4.14 ev. (a) Find the cutoff wavelength for lead. 299.5 nm (b) What is the lowest frequency of light incident on lead that releases photoelectrons from its surface? 1.0015 Hz (c) If photons of energy 5.84 ev are incident on lead, what is the maximum kinetic energy of the ejected photoelectrons? 1.66 Your response is within 10% of the correct value. This may be due to roundoff error, or you could have...
Help!
Consider photons of wavelength λ W= 1.75eV: 4. 261 nm incident onto a metal with work function a. What is the frequency of this incident light? (1pt) b. What is the encrgy of a photon of this light? (Ipt) What will the kinetic energy be for an electron emitted from the metal? (2pt) c. d. What would the stopping voltage be for this set up? (2pt)
it is actually 30% more kinetic
energy not less
incident photons (2) When monochromatic light with wavelength 496 nm is incident on a certain photo-sensitive material, photoelectrons are liberated. When violet light with wavelength 400 nm is incident on the same surface, photoelectrons are liberated but with 30% less kinetic energy than before. What is the work function of the photo-sensitive material? photo- electrons photo- sensitive material
Photoelectric 1 A Sodium photoelectric surface with a work function of 2.3 eV is illuminated by electromagnetic radiations and emits electrons. The emitted electrons travel towards a negatively charged cathode. For the electrons emitted from the Sodium surface, calculate: - The maximum Kinetic Energy of the electrons Their speed at this maximum Kinetic Energy. Calculate the wavelength of the radiation that is incident on the Sodium surface Calculate the minimum frequency of light that will cause the emission of electrons....
Please show all work and answer all questions
A 1.50mW laser produces photons of wavelength 689 nm. a. What is the frequency of the photons? b. What is the energy in Joules and electron volts for the photons? c. How many photons per second does the laser emit? d. If the laser is used to produce photo electrons in a photoelectric experiment and the maximum kinetic energy of the electrons is found to be 0.800 eV, what is the work...
just need help on part b. Thanks
Sodium has a work function of 2.46 eV (a) Find the cutoff wavelength and cutoff frequency for the photoelectric effect wavelength 504.1 frequency 5.951E14Hz nm (b) What is the stopping potential if the incident light has a wavelength of 164 nm? 7.6 Your response differs from the correct answer by more than 10%. Double check your calculations. V
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