1. Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions -25...
Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions (Au2+), each with a mass of 3.27 × 10-25 kg. The ions are accelerated from rest through a potential difference of 2.20 kV. Then, a 0.530-T magnetic field causes the ions to follow a circular path. Determine the radius of the path.
Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions (Au^2+), each with a mass of 3.27*10^(-25) kg. The ions are accelerated from rest through a potential difference of 1.10 kV. Then, a 0.490 T magnetic field causes the ions to follow a circular path. Determine the radius of the path.
Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions (Au^2+), each with a mass of 3.27 times 10^-25 kg. The ions are accelerated from rest through a potential difference of 2.20 kV. Then, a 0.710-T magnetic field causes the ions to follow a circular path. Determine the radius of the path.
1a) A charged particle with a charge-to-mass ratio of |q|/m = 5.7 × 108 C/kg travels on a circular path that is perpendicular to a magnetic field whose magnitude is 0.55 T. How much time does it take for the particle to complete one revolution? 1b) Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions (Au2+), each with a mass of 3.27 × 10-25 kg. The ions are accelerated from rest through a potential difference...
This is what I did. r = (m*v) / (qB) To find v, v= sqrt( 2*q*V/m) = 37013.9 and I put this number and the given numbers to find 'r', but I got it wrong. What did I do wrong? I. Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions (Au2+), each with a mass of 3.27 × 10-25 kg The ions are accelerated from rest through a potential difference of 1.40 kV. Then, a...
A doubly ionized molecule is studied in a mass spectrometer, where it is accelerated through a potential difference of −440 V and found to travel in a circular path of radius 2.50 cm in a 0.700-T magnetic field. What is the molecule’s mass?
A doubly ionized molecule is studied in a mass spectrometer, where it is accelerated through a potential difference of −750 V and found to travel in a circular path of radius 9.90 cm in a 0.830-T magnetic field. What is the molecule’s mass?
Please answer the following Chapter 21, Problem 22 The ion source in a mass spectrometer produces both singly and doubly ionized species, x+ and x2+. The difference in mass between these species is too small to be detected. Both species are accelerated through the same electric potential difference, and both experience the same magnetic field, which causes them to move on circular paths. The radius of the path for the species x+ is ri, while the radius for the species...
In a mass spectrometer chlorine ions of mass 35u and charge +5e are emitted from a source and accelerated through a potential difference of 250 kV. They then enter a region with a magnetic field which is perpendicular to their original direction of motion. The chlorine ions exit the spectrometer after being bent along a path with radius of curvature 3.5 m. What is the value of the magnetic field? (u = 1.66 ´ 10–27 kg, e = 1.6 ´...
Tipler6 26.P.042. Before entering a mass spectrometer, ions pass through a velocity selector consisting of parallel plates separated by 1.5 mm and having a potential difference of 150 V. The magnetic field between the plates is 0.42 T. The magnetic field in the mass spectrometer is 1.2 T. (a) Find the speed of the ions entering the mass spectrometer. ___ m/s (b) Find the difference in the diameters of the orbits of singly ionized 238U and 235U. (The mass of...