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Chapter 21, Problem 22 The ion source in a mass spectrometer produces...
Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions (Au2+), each...
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...
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...
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.
1. Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions -25...
1. Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions -25 potential difference of 1.30 kV. Then, a 0.440 T magnetic field causes the ions to follow a circular path. Determine the radius of the path.
A doubly ionized molecule is studied in a mass spectrometer, where it is accelerated through 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...
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?
1a) A charged particle with a charge-to-mass ratio of |q|/m = 5.7 × 108 C/kg travels...
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...
AV An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer....
AV An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer. Experimenters expect 3 primary isotopes: 56Fe, 58Ni, & boni. Positive ions are accelerated by an applied potential (AV) of 3300 Volts which is the same potential difference used to create the electric field in the velocity selector, where d is 1.1 cm. 1. On the figure provided, in the velocity selector region, (A) draw the direction of the electric field. (B) Draw the necessary...
This is what I did. r = (m*v) / (qB) To find v, v= sqrt( 2*q*V/m)...
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...
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.
1. Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions -25 potential difference of 1.30 kV. Then, a 0.440 T magnetic field causes the ions to follow a circular path. Determine the radius of the path.
AV An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer. Experimenters expect 3 primary isotopes: 56Fe, 58Ni, & boni. Positive ions are accelerated by an applied potential (AV) of 3300 Volts which is the same potential difference used to create the electric field in the velocity selector, where d is 1.1 cm. 1. On the figure provided, in the velocity selector region, (A) draw the direction of the electric field. (B) Draw the necessary...
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...
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