A 0.703-nm photon collides with a stationary electron. After the collision, the electron moves forward and the photon recoils backwards. (a) Find the momentum of the electron. kg. m/s (b) Find the kinetic energy of the electron. eV
Q: A small space yacht, mass 9.15X10' kg, is passing hear a large star wnen Iits englnes suddenly fall.…
A: Concept used: Photons strike the surface at speed of light to propel and basic kinematics is used.
Q: P12.27 Pulsed lasers are powerful sources of nearly mono- chromatic radiation. Lasers that emit…
A: Given data: Time interval (t) = 5.00 ns = 5.00×10-9 s Total energy (ET) = 0.175 J Wavelength (λ) =…
Q: A radioactive nucleus undergoes gamma decay. How large would you expect the energy of the emitted…
A: The binding energy of a nuclei is in the range of several MeV, i.e in terms of mega electron volts.…
Q: A particle is in a two-level system with energy levels of E₁ = 2 eV and E₂ = 4 eV. The particle is…
A: Initial energy level of the particle (ground state): E1 = 2 eVHigher energy level of the particle:…
Q: a laser produces a short pulse of light whose energy equals 0.20 J. The wavelength of the light is…
A: Given data E'=0.2 Jλ=694 nm
Q: A carbon nucleus and an iron nucleus are initially located 5.60 nm apart from one another. How much…
A:
Q: Light of frequency 9.6 x 1014 Hz is incident on a metal surface. The stopping potential for this…
A: Given Data: Frequency of the light is The stopping potential is To Find: The work required for an…
Q: An electron accelerated in an x-ray tube hits an anode (positively charged plate) target. HILF +High…
A: The kinetic energy of the electron is
Q: A carbon nucleus and an iron nucleus are initially located 9.69 nm apart from one another. How much…
A: The work done is equal to the change in electric potential energy of the Carbon and Iron nucleus.
Q: 2. Light of frequency 7.40 × 10¹4 Hz ejects electrons from surface (A) with a maximum kinetic energy…
A: Given, The frequency of the light, f=7.40×1014 Hz The kinetic energy of electrons ejected by surface…
Q: A 0.393-nm photon collides with a stationary electron. After the collision, the electron moves…
A:
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: (The Photoelectric Effect) A 75-W light source consumes 75 W of electrical power. Assume all this…
A: The wavelength =600nm To find the frequency of the emitted light and The photons per second does…
Q: A photon is incident on a particle with mass M at rest. What is the minimal energy the photon must…
A: The objective of the question is to find the minimum energy a photon must have to create two…
Q: a. An electron is found to a wavelength of A = 0.65 nm. What is the velocity of the electron? m/s b.…
A: (a) Using de-Broglie wavelength equation: λ=hmvv=hmλ where,…
Q: (b) What is the cutoff frequency for this surface?
A:
Q: A photon of red light (wavelength=720 nm) and a Ping-Pong ball (mass- 1.90 x 10 kg) have the same…
A:
Q: multiple choice question What will be the energy associated with a red photon, if the wavelength of…
A: Wavelength (λ) = 650 nm Required: The energy associated with red photon
Q: What is the momentum of photons with the following wavelengths?
A: Apply formula for photon momentum
Q: Calculate the de Broglie wavelength for an electron that has kinetic energy 48.4eV B. Calculate the…
A: Given: E1=48.4 eV = 48.4*1.6*10-19JE1=7.74*10-18JandE2=48.4 KeV = 48.4*103*1.6*10-19 JE2=7.74*10-15…
Q: The following are characteristics of the photoelectric effect: a. An incoming photon is totally…
A: e. All are the characteristics of photo electric effect. photoelectric effect is the emission of…
Q: Consider a photon with energy 0.65 eV. A. What is its wavelength in nanometers? B. What is its…
A: energy 0.65 eV.
Q: A 1210 kg car is moving at 15.0 m/s. Which of these equals its de Broglie
A: Given that The mass of the car is (m) = 1210Kg The speed of…
Q: An electron and a 0.0440-kg bullet each have a velocity of magnitude 480 m/s, accurate to within…
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 photon has an energy of E1= 1.0x10^-20 J. A second photon has twice the wavelength as the first…
A: Derive a relationship between energy of the photon with momentum p and its wavelength λ.
Step by step
Solved in 4 steps with 4 images
- Which of the following statements are true? Choose all that are. a. A photon has kinetic energy. b. Electrons have a wavelength. c. If photon A has a larger momentum than photon B, photon A must be moving faster than photon B. d. For the Photoelectric Effect, light with a frequency above the cutoff frequency will result in no electrons being ejected.An electron and a 0.0380-kg bullet each have a velocity of magnitude 510 m/s, accurate to within 0.0100%. Within what lower limit could we determine the position of each object along the direction of the velocity? electron mm bullet mWhich of the photons in the following waves would contain the greatest amount ofavailable energy?A. A TV wave of frequency 62 MHzB. Light of wavelength 589 nmC. A mobile phone carrier wave of frequency 22 GHzA. A radar wave of wavelength 3.3 cm
- The mass of an electron is 9.11 10-31 kg.A.) If the wavelength of an electron is 5.02 10-7 m, how fast is it moving? B.) If an electron has a speed equal to 4.30 106 m/s, what is its wavelength?An x-ray of strikes a free electron and scatters with a wavelength of 0.1252 nm at 60.0°. a. What is the wavelength of the incident photon (from the x-ray source)? b. Calculate the wavelength of an x-ray that is scattered at 30.0° scattered photon incident photon target electron scattered electronX-rays with an energy of 400 keV undergo Compton scattering from a target. The scattered rays are deflected at an angle of 32.0° relative to the direction of the incident rays. What is the energy of the scattered x-rays? a. 3.58E+2 keV b. 4.00E+2 keV c. 3.37E+3 keV d. 3.23E+2 keV
- How rapidly would each of the following particles be moving if they all had the same wavelength as a photon of red light (wavelength = 750 nm)?a. An electron of mass 9.10939 x 10^-28 g?b. A proton of mas 1.67262 x 10^-24 gc. A neutron of mass 1.67493 x 10^-24 gd. An alpha particle of mass 6.64 x 10^-24 g Please don't provide handwriting solution2. A photon has a frequency of 7.50 x 1014 Hz, a. Determine the energy and the momentum of this photon. b. If all the energy of this photon were to be converted to mass, determine the equivalent mass for the particle. c. A microscopic specimen has a wavelength of 8.2 x 10-14m and a speed of 1.1 x 10° m/s. Determine the mass of this microscopic specimen.10% of the energy supplied to a bulb is radiated as visible light. How many photons are emitted per second by a 50 W bulb? Take the wavelength of visible light as 660 nm. A. 2.66 x 1019 B. 1.66 x 1020 C. 1.66 x 1019 D. 2.66 x 1020