Sketch graphs to describe the relationship of the following: [5 marks] (a) Maximum kinetic Energy VS...

a) What is the energy of a photon (in eV) that has a wavelength of 466...

a) What is the energy of a photon (in eV) that has a wavelength of 466 nm? (3 digit answer) b) What is the energy (in eV) of a photon that has a wavelength of 460 nm? c) What is the wavelength of a photon that has 2.1 eV of kinetic energy? (format of a.b x 10-c m ) d) a photoelectric surface has a work function of 2.00 eV. What is the threshold frequency of this surface?  (format of a.bc...

When light of wavelength 300.0 nm is incident on potassium, the emitted electrons have maximum kinetic...

When light of wavelength 300.0 nm is incident on potassium, the emitted electrons have maximum kinetic energy of 2.03 eV. A) Calculate the work function for potassium. B) Calculate the stopping potential if the incident light, instead, has a wavelength of 400.0 nm. C) Now, assume that the incident light has an intensity of 0.01 W/m^2, and that the potassium atom has an area of 0.01 nm^2. Using classical physics, estimate the time required for an energy equal to the...

a) A photoelectric surface has a work function of 3.30 x 10-19 J. What is the...

a) A photoelectric surface has a work function of 3.30 x 10-19 J. What is the threshold frequency of this surface? (format of a.bc x 10de Hz) b) What is the stopping voltage of an electron that has 5.40 x 10-19 J of kinetic energy? (3 digit answer) c) A photoelectric surface requires a light of maximum wavelength of 675 nm to cause electron emission. What is the work function (in eV) of this surface? (3 digit answer) d) A...

a) A photon of wavelength 43 nm is incident upon a metal in a photoelectric apparatus....

a) A photon of wavelength 43 nm is incident upon a metal in a photoelectric apparatus. A stopping voltage of 21 V was obtained. What is the threshold frequency of the metal? (format of a.b x 10cdHz) b) Light with a frequency of 5.00 x 1014 Hz illuminates a photoelectric surface that has a work function of 2.10 x 10-19 J. What is the maximum kinetic energy of the emitted photoelectrons? (format of a.bc x 10-de J ) c) Light...

Remember, all energy answers should be given in eV. You will lose convention marks for not...

Remember, all energy answers should be given in eV. You will lose convention marks for not doing this. 1. What is the energy of light with a frequency of 6.5 × 104Hz? 2. What wavelength does a photon of energy 2.00eV have? 3. What is the momentum of a photon with a wavelength of 725nm? 4. A photon with wavelength of 450nm ejects an electron with 0.5eV of kinetic energy. What is the work function of the material the electron...

5. The light of frequency 8.9 x 10^14 Hz falls on a photoelectric surface. When the...

5. The light of frequency 8.9 x 10^14 Hz falls on a photoelectric surface. When the retarding potential of 0.85 V is applied, the maximum speed with which an electron reaches the collector plate is 4.9 x 10^5 m/s. Find: a) the maximum kinetic energy( in joules) of an electron as it leaves the photoelectrode b) the work function (in eV) of the photoelectrode c) the threshold frequency (in Hz) of the photoelectrode

has an intensity of 0.035 W/m2. The electrons are photoelectrically emitted with a maximum speed of...

has an intensity of 0.035 W/m2. The electrons are photoelectrically emitted with a maximum speed of 6.1x105 m/s. Assume the absorption of every photon ejects an electron. (a) Convert the work function 2.89 eV to Joules. b) Determine the kinetic energy of the electron with a speed of 6.1x105 m/s. The mass of an electron is 9.11x10-31 kg (c) Determine the total energy required to both eject the electron and give it a velocity of 6.1x105 m/s. (d) Determine the...

A photon with frequency 9.996x1014 Hz strikes a slab of lead and is absorbed without freeing...

A photon with frequency 9.996x1014 Hz strikes a slab of lead and is absorbed without freeing an electron. a) If the frequency of that photon is the threshold frequency for lead, calculate the work function for lead. Express your answer in eV. b) Assume a photon of wavelength 200 nm strikes the lead, freeing an electron. Calculate the maximum kinetic energy (in Joules) of the liberated electron. c) Calculate the de Broglie wavelength of the emitted electron. You will need...

In a photoelectric e↵ect experiment, the maximum kinetic energy of electrons ejected from a cesium metal...

In a photoelectric e↵ect experiment, the maximum kinetic energy of electrons ejected from a cesium metal plate is found to be 0.57eV when the plate is illuminated with 500 nm light. (a) Given what we know about the relation of wavelength and energy, how much energy does a single photon of 500 nm light have? (b) Given the results of this experiment, how much energy must the electron have used to break free of the atom? (c) When the same...

Light of wavelength 235 nm is incident on Magnesium in a photoelectric effect experiment. The work...

Light of wavelength 235 nm is incident on Magnesium in a photoelectric effect experiment. The work function of Magnesium is 3.68 eV. (a) What is the maximum kinetic energy of the emitted electrons, in eV? (b)What is the maximum velocity of the emitted electrons, in m/s? (c) What is the stopping potential, in Volts, that results in no collected photoelectrons? (d) Light of wavelength 235 nm is now incident on lead (work function 5.40 eV). What is the maximum kinetic...