X-ray photons are produced by electrons accelerated through a potential difference of 63 kV. Determine the wavelength of such a photon in nm. Your answer should be a number with four decimal places, do not include unit.
1nm = 10-9 m
V = 63kv 63000v
Since E = hc/lemda = eV
=) Lemda = hc/eV = 1240/63000 nm = 0.01968nm
=) Wavelength lemda = 0.0196nm
X-ray photons are produced by electrons accelerated through a potential difference of 63 kV. Determine the...
Question 8 10 pts X-ray photons are produced by electrons accelerated through a potential difference of 99 kv. Determine the wavelength of such a photon in nm. Your answer should be a number with four decimal places, do not include unit. 1nm = 10-9 m
10 pts Question 8 X-ray photons are produced by electrons accelerated through a potential difference of 117 kV. Determine the wavelength of such a photon in nm. Your answer should be a number with four decimal places, do not include unit. 1nm 109 m
Question 8 10 pts X-ray photons are produced by electrons accelerated through a potential difference of 87 kV. Determine the wavelength of such a photon in nm. Your answer should be a number with four decimal places, do not include unit 1nm = 10.9 m Question 9 10 pts An X-ray photon has a momentum of 4.5 x 10-23 kg m/s. Determine its energy in keV. Your answer should be a number with one decimal place.
Problem 16. Find the maximum energy in eV of an x-ray photon produced by electrons accelerated through a potential difference of 50.0 kV in a CRT like the one show below. Metal target X rays High- voltage source Vacuum Electrons Heated filament Filament voltage X rays are produced when energetic electrons strike the copper anode of this cathode ray tube (CRT). Electrons (shown here as separate particles) interact individually with the material they strike, sometimes producing photons of EM radiation.
Calculate the minimum wavelength x-ray that can be produced when a target is struck by an electron that has been accelerated through a potential difference of 15.5 kV. Answer in units of nm. Calculate the minimum wavelength x-ray when electron is accelerated through a potential difference of 88 kV. Answer in units of nm.
What is the minimum wavelength of x-rays produced by electrons accelerated through a potential difference of 20 000 V?
An electron in a cathode-ray tube is accelerated through a potential difference of 10 kV, then passes through the d =1.5-cm-wide region of uniform magnetic field in the figure(Figure 1). Part A What field strength will deflect the electron by 9 = 11 °?
What is the wavelength of an electron accelerated through a 24-kV potential? The mass of the electron is 9.11 x 10-31 kg. Your answer should be in the form: N x 10-12 m, N should be a number with two decimal points. Please enter only the number N, do not include units.
An electron in a cathode-ray tube is accelerated through a potential difference of 10 kV, then passes through the d = 1.8 cm wide region of uniform magnetic field in the figure. x x x x x x x x x OV 10 kV What field strength will deflect the electron by = 11 degrees? Express your answer in mT. B= Preview mT
A beam of electrons is accelerated through a potential difference of 11.0 kV before entering a velocity selector. If the B-field of the velocity selector is perpendicular to the velocity and has a value of 0.02 T, what value of the E-field is required (in the magnetic field region) if the particles are to be undeflected? answer in V/m