Consider the mass spectrometer shown schematically in the figure below. The magnitude of the electric field...

Consider the mass spectrometer shown schematically in the figure below. The magnitude of the electric field...

Consider the mass spectrometer shown schematically in the figure below. The magnitude of the electric field between the plates of the velocity selector is 2.60  103 V/m, and the magnetic field in both the velocity selector and the deflection chamber has a magnitude of 0.0300 T. Calculate the radius of the path for a singly charged ion having a mass m = 2.48  10-26 kg

You have a Bainbridge Mass Spectrometer with an electric field in the velocity selector of 1.20...

You have a Bainbridge Mass Spectrometer with an electric field in the velocity selector of 1.20 x 105 V/m and a magnetic field in both regions of 0.600 T. A stream of singly charged ions from a pure source (i.e.-all the atoms are the same type of element) move in a semicircular arc and strike the recording plate 1.46 m from the opening in the magnetic field chamber. Determine the mass of the ions. Given the fact that the mass...

Suppose the electric field between the electric plates in the mass spectrometer of (Figure 1) is...

Suppose the electric field between the electric plates in the mass spectrometer of (Figure 1) is 3.18×104V/m3.18×104V/m and the magnetic fields B=B′=0.77TB=B′=0.77T. The source contains carbon isotopes of mass numbers 12, 13, and 14 from a long-dead piece of a tree. (To estimate atomic masses, multiply by 1.67 ×10−27kg×10−27kg.) How far apart are the lines formed by the singly charged ions of mass numbers 12 and 13 on the photographic film? How far apart are the lines formed by the...

Suppose the electric field between the electric plates in the mass spectrometer of Figure 27-33 in...

Suppose the electric field between the electric plates in the mass spectrometer of Figure 27-33 in the textbook is 2.23×104 V/m and the magnetic fields are B=B′=0.38T. The source contains carbon isotopes of mass numbers 12, 13, and 14 from a long dead piece of a tree. (To estimate atomic masses, multiply by 1.66×10−27kg.) How far apart are the lines formed by the singly charged ions of each type on the photographic film ( d12−13, d13−14)? What if the ions...

A mass spectrometer is a device for separating particles of different masses from a mixture. For...

A mass spectrometer is a device for separating particles of different masses from a mixture. For example, the technology is used to investigate qualitative and quantitative changes within thousands of biologically active components such as proteins, lipids and metabolites. A mass spectrometer consists of three sections: The accelerator The velocity selector The magnetic chamber (1) Accelerator (acc): In the accelerator, there is only an uniform Electric field due to a potential difference Vacc across two vertical plates separated from a...

A mass spectrometer is a device for separating particles of different masses from a mixture. For...

A mass spectrometer is a device for separating particles of different masses from a mixture. For example, the technology is used to investigate qualitative and quantitative changes within thousands of biologically active components such as proteins, lipids and metabolites. A mass spectrometer consists of three sections: The accelerator The velocity selector The magnetic chamber (1) Accelerator (acc): In the accelerator, there is only an uniform Electric field due to a potential difference Vacc across two vertical plates separated from a...

A mass spectrometer is used to examine the isotopes of uranium. Ions in the beam emerge...

A mass spectrometer is used to examine the isotopes of uranium. Ions in the beam emerge from the velocity selector at a speed of 2.92 ✕ 105 m/s and enter a uniform magnetic field of 0.605 T directed perpendicularly to the velocity of the ions. What is the distance between the impact points formed on the photographic plate by singly charged ions of 235U and 238U? cm

A singly charged positive ion, with a mass of 5.45 x 10-27kg is traveling at 4.7x106...

A singly charged positive ion, with a mass of 5.45 x 10-27kg is traveling at 4.7x106 m/s straight through a chamber with an electric field of 1500V, pointed downward. a. What is the magnetic field B1? (This is a vector) b. After going through the velocity selector (above) it enters a second magnetic field and travels in a circle of 0.15m. What is the magnetic field B2? (also a vector)

A mass spectrometer similar to the one in the figure below is designed to separate protein...

A mass spectrometer similar to the one in the figure below is designed to separate protein fragments. The fragments are ionized by removing a single electron and then enter a 0.70 T uniform magnetic field at a speed of 2.0 105 m/s. If a fragment has a mass 90 times the mass of the proton, what will be the distance between the points where the ion enters and exits the magnetic field? https://imgur.com/a/6JzFK

1. An electron is moving through a magnetic field whose magnitude is 8.99 × 10-4 T....

1. An electron is moving through a magnetic field whose magnitude is 8.99 × 10-4 T. The electron experiences only a magnetic force and has an acceleration of magnitude 3.22 × 1014 m/s2. At a certain instant, it has a speed of 8.44 × 106 m/s. Determine the angle (less than 90o) between the electron's velocity and the magnetic field. 2.Suppose that an ion source in a mass spectrometer produces doubly ionized gold ions (Au2+), each with a mass of...