3. Light of wavelength 500. nm is incident on a metallic surface. If the stopping potential for the photoelectric effect is 0.450 V, find (a) the maximum kinetic energy of the emitted electrons, (b) the work function, and (c) the cutoff wavelength.
Q: If a red light matches the cut-off frequency of a metal and can liberate electrons from the metal…
A: In general, Energy E = hf = hc/λ Where h is Planck constant f is frequency c…
Q: shining light on a metal surface. The light source emits A physicist wishes to produce electrons…
A:
Q: Light of wavelength 300.0 nm is incident on a metal that has a work function of 2.00 eV. What is the…
A:
Q: 15. Which statement regarding the relative energies of monochromatic light [one color] with ). = 800…
A: given , wavelength of a monochromatic light , λ1 = 800 nm wavelength of a monochromatic light , λ2 =…
Q: Two scenarios: 1. A photon scatters off of a free electron and has a wavelength difference of…
A: The objective of the question is to determine which scenario more clearly demonstrates the particle…
Q: 1- Calculate the de Broglie wavelength of an electron that travels with 5.0 x 105 m/s. Also,…
A: According to Bartleby Guidelines, I am going to answer only one part of the question, kindly ask…
Q: 6. When ultraviolet photons with a wavelength of 3.45x10-7 m are impinging on a certain metal…
A: The work function (Φ) is the minimum amount of energy needed to remove an electron from a metal…
Q: 2. Light of frequency 7.60 x 10¹4 Hz ejects electrons from surface (A) with a maximum kinetic energy…
A: The frequency of the light, The kinetic energy of electrons ejected by surface A,
Q: 3. The thresho Calculate th the copper
A: To determine: The threshold frequency for the emission of photoelectrons from copper is 1.10×1015…
Q: 3. Using the average speed of a gas, (8RT?MW)1/2, determine the average de Broglie wavelength for an…
A: Hello. Since you have posted multiple questions and not specified which question needs to be solved,…
Q: The work function (i.e. the binding energy of the electrons to the atom) of copper is 4.7 eV. A beam…
A:
Q: 11B). Photons with energy of 2.35 eV are used in a photoelectric effect experiment. The binding…
A: Using the given photon energy and binding energy of material, we will first calculate kinetic…
Q: . i. Calculate the maximum wavelength λmax of electromagnetic radiation that could eject electrons…
A:
Q: 8. When a photoelectric surface is illuminated with light of wavelength 537 nm, the stopping…
A: We use the formula for photoelectric effect to get the required.
Q: 4. An electron is accelerated into a cathode plate with a potential difference of 100,000 V. a) What…
A: NOTE- As per our company guidelines we are supposed to answer only first 3 sub-parts. Kindly…
Q: Photons Q₁. A single photon of 5 MeV undergoes Compton scattering. If the scattering angle is 30°,…
A: Given,The initial energy, Angle, The inital wavelength of the photon,The energy of the photon,
Q: 3.5. The threshold wavelength for photoelectric emission in Tungsten is 240 nm. What wavelength of…
A: Step-by-Step Solution1. Understanding the Given Information:Threshold wavelength for Tungsten…
Q: A lamp that emits photons of wavelength 200nm is used un a photoelectric effect demonstration.…
A: Wavelength of photon, C= 200 nm Area of plate, A = 0.01 m Current produced, I = 5 mA Number of…
Q: 5. Calculating Photon Energy and the Photoelectric Effect: A Violet Light Given 1 ev = 1.6 x 10^-19…
A: Approach to solving the question:Determine the energy of the photon of the 420-nm violet light using…
Q: 4) The minimum frequency for the photoelectric effect to occur in a given metal is 5 x 10¹4 Hz. a)…
A: Given: Minimum frequency (fο) = 5 × 1014HzTo find: a) Work function of the metal (W) b)…
Q: (a) What is the kinetic energy of the emitted electrons at this frequency? (b) What happens to the…
A:
Q: The work function of K is 2.2 eV (a) Calculate the threshold frequency and wavelength (b) Will…
A: work function of k = 2.2 eV
Q: 2) Consider the photoelectric effect in zinc. The work function of the Zn is 4.30 eV. After the…
A:
Q: During a photoelectric effect experiment, light possessing 3.54 eV of energy is incident on a…
A: Given data: Energy of incident photon (E) = 3.54 eV Work function (W0) = 1.53 eV Required: The…
Q: a) Draw a graph that shows the relationship between the frequency of the incident radiation and the…
A: Given information: The graph of frequency vs kinetic energy: From the above graph we can identify…
Step by step
Solved in 2 steps with 2 images
- Photoelectric effect is observed on two metal surfaces. Light of wavelength 300.0 nm is incident on a metal that has a work function of 2.40 eV. What is the maximum speed of the emitted electrons? m/s1. A particle loses 7.20 × 10-¹⁹ J of energy while emitting light. (a) What is the wavelength of the light that is emitted in nm? What portion of the electromagnetic spectrum does this light represent? (b) What is the frequency of the light emitted in sec¯¹? (c) If the wave function for an electron has a wavelength of λ = 500 nm, which would be equivalent to a visible photon if the electron were light instead of a particle, how fast is the electron moving, in m/sec, according to deBroglie's formula?4. In an experiment on the photoelectric effect, a metal is illuminated by visible light of different wavelengths. A photoelectron has a maximum kinetic energy of 0.9 eV when red light of wavelength 640 nm is used. With blue light of wavelength 420 nm, the maximum kinetic energy of the photoelectron is 1.9 eV. Use this information to calculate an experimental value for the Planck constant h. [
- A photoelectric effect is observed in a particular metal when a maximum wavelength of 700 nm is used. a.Determine the work function. b.What is the stopping potential of the electrons if a wavelength of 500 nm is used instead? c.Graph the maximum kinetic energy of the photoelectrons as a function of the light illuminated over this metal.Photons of wavelength 248.6 nm strike a metal whose work function is 3.5 eV. What is the KE of the most energetic photoelectron? a) 1.5 eV b) 2.5 eV c) 3.5 eV d) none of these.Tantalum has a work function of 4.2 eV. The most energetic photoelectron has KE of 2.12 eV. What is the wavelength of the incoming photons? a) 586 nm b) 197 nm c) 296 nm d) none of these.
- 9. Considering the photoelectric effect; a) If a material has a cutoff wavelength of 780 nm what is the work function of the material? b) What is the maximum speed of liberated electrons when light with a wavelength of 410 nm is used to illuminate the material? If a liberated electron has 3.2349 eV of kinetic energy and it was a photon emitted from a hydrogen atom transition that liberated it, what energy level transition occurred? State both the initial and final energy level.ASS 3. When light with a wavelength of 222 nm is incident on a certain metal surface, electrons are ejected with a maximum kinetic energy of 3.16 × 10-¹⁹ J. Determine the wavelength of light that should be used to quadruple the maximum kinetic energy of the electrons ejected from this surface. nm fo 0 ssf60€ ssf606 5 09588 09 ssf60 ssf609. Considering the photoelectric effect; a) If a material has a cutoff wavelength of 780 nm what is the work function of the material? b) What is the maximum speed of liberated electrons when light with a wavelength of 410 nm is used to illuminate the material? c) If a liberated electron has 3.2349 eV of kinetic energy and it was a photon emitted from a hydrogen atom transition that liberated it, what energy level transition occurred? State both the initial and final energy level.
- 3. What speed must an electron have if its momentum is to be the same as that of an X-ray photon with a wavelength of 0.30 nm? m/s of19 o oof= 1. Photoelectric effect. In a photoelectric experiment in which monochromatic light of wave- length \ falls on a potassium surface, it is found that the stopping potential Vstop is 1.9 V for > 300 nm and 0.88 V for \ = 400 nm. Imagine we know neither Planck's constant, nor the workfunction for potassium, nor the threshold frequency fo. But assume we do know the elementary charge e 1.60 × 10-19 C and want to test the theoretical prediction of Eintsein's theory. = (a) From the given data, calculate a value for Planck's constant, h. (b) From the same data, find the workfunction Eo and the threshold frequency fo for potas- sium. (c) Then compare your results for h and Eo to their known values (see Knight, Table 38.1 for the work function). (d) Plot eVstop as a linear function of frequency f. Include the information you have found in parts (a) and (b) as well as the experimental data.You set up a photoelectric experiment with an unknown metal to eject electrons. You use light of wavelength λ = 660 nm, which just BARELY ejects electrons from the metal. Planck s constant is either h = 6.63 x 10-34 J.s or h = 4.14 x 10-15 ev.s. a) What is the binding energy of the unknown metal in eV? eV b) You change the light source to one with a wavelength of λ = 300 nm. Using the binding energy you found in the previous step, find the maximum kinetic energy of an electron that is ejected from the metal in Joules. c) What is the stopping voltage for an electron with the kinetic energy you just found? Submit Answer