a) Draw a graph that shows the relationship between the frequency of the incident radiationand the maximum kinetic energy of the electrons emitted from the photoelectric surface.Energy as a function of frequency:F73.50-3.002502.a-1.501.000.50 -1.020 3.0 4.O 5.0 60 7.0Frequency (xl04“ te)b) Using your graph, determine the threshold frequency and Planck's Constant.17Planck's ConsrantSlopeeriseE%3DrunEnergy (x10-193)

Given information: The graph of frequency vs kinetic energy: From the above graph we can identify…

Answered: a) Draw a graph that shows the…

Similar questions

Pls answer number 2 thank you
Photons of a certain ultraviolet light have an energy of 6.70 ✕ 10−19 J. (a) What is the frequency of this UV light? Hz(b) Use ? = c/f to calculate its wavelength in nanometers (nm). nm
A bullet from a .357 Magnum has a mass of 11.66 gms and a muzzle velocity of 387 m/s. What is the de Broglie wavelength of the bullet? Select one: a. 2.34 x 10-35 m b. 1.47 x 103 m c. 1.47 x 10-34 m d. 2.34 x 102 m
3:42 .ull 5G Done 2 of 2 John Isner holds the ATP's (Association of Tennis Professionals) official record for the fastest serve at 253 km/h. Calculate the de Broglie wavelength of a tennis ball with the standard weight of 54.6 grams. Give your answer in 1034 m (for example, if your answer is 5.6x1034 m, then enter 5.6). This should give you a good idea of why one cannot expect to observe interference affects using tennis balls rather then, for example, electrons. +)
help please
a) For photon, electron and neutror, each having energy E = SD₂V = 50 (1.602 x 10+9y), calculate the de Broglie wavelengths and the frequency of an 6) calculate the de Broglie wavelength of a baseball 0.150kg moving at of weight 150g 100 mph. ( SVA
a) What is the momentum of a 0.0080-nm wavelength photon that could detect details of an atom? x10 23 kg m/s b) Calculate its energy. MeV
A certain X-ray machine generates X-rays from a beam of electrons accelerated from zero to 99.9999999 per cent the speed of light in a long linear accelerator of length 3.2 km. The electrons are generated in pulses of duration ∆t = 100 fs. The generated x-rays from the target are also short pulses (λ = 0.15 nm). Determine the energy of a single x-ray photon in the beam. a.) 8.27 eV b.) 8.27 J c.) 8.27 keV d.) none of these.