A charged particle moves through a velocity selector at a constant speed in a straight line....
A charged particle moves through a velocity selector at a constant speed in a straight line. The electric field of the velocity selector is 3.20×10^3 N/C, while the magnetic field is 0.250 T. When the electric field is turned off, the charged particle travels on a circular path whose radius is 4.60 cm. Find the charge-to-mass ratio of the particle.
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A charged particle moves through a velocity selector at a
constant speed in a straight line....
a) A charged particle moves through a velocity selector at a constant speed in a straight...
a) A charged particle moves through a velocity selector at a constant speed in a straight line. The electric field of the velocity selector is 4070 N/C, while the magnetic field is 0.344 T. When the electric field is turned off, the charged particle travels on a circular path whose radius is 6.06 cm. Find the charge-to-mass ratio of the particle. b) The 1600-turn coil in a dc motor has an area per turn of 2.3 × 10-2 m2. The...
Please answer quickly, will upvote immediately! A charged particle moves through a velocity selector at a...
Please answer quickly, will upvote immediately!
A charged particle moves through a velocity selector at a constant speed in a straight line. The electric field of the velocity selector is 3.56E+3 N/C, while the magnetic field is 0.332 T. When the electric field is turned off, the charged particle travels on a circular path whose radius is 4.58 cm. Calculate the charge-to-mass ratio of the particle. Submit Answer Tries 0/10
A velocity selector is used in accelerator mass spectrometry to select particles based on their speed.
A velocity selector is used in accelerator mass spectrometry to select particles based on their speed. The velocity selector is composed of orthogonal electric and magnetic fields, such that particles with the correct charge to mass ratio and speed will be unaffected, and other particles will be deflected. If the Electric Field is oriented down, What is the direction of the Magnetic Field? A charged particle moves through the velocity selector at a constant speed in a straight line. The electric field...
An unknown particle moves in a straight line through crossed electric and magnetic fields with E...
An unknown particle moves in a straight line through crossed electric and magnetic fields with E = 1.5 kV/m and B = 0.034 T. If the electric field is turned off, the particle moves in a circular path of radius r = 2.7 cm.
A charged particle moves in a straight line with constant speed through a region of space....
A charged particle moves in a straight line with constant speed through a region of space. Which of the following electric and magnetic field configurations are consistent with this trajectory? (Assume gravity is negligible). a) the magnetic field is perpendicular to the particle's velocity and the electric field is zero. b) the magnetic field is perpendicular to the particle's velocity and there is a non-zero electric field. c) the magnetic field is parallel to the particle's velocity and the electric...
is a velocity selector that can beused to measure the speed of a charged particle....
is a velocity selector that can be
used to measure the speed of a charged particle. A beam of
particles is directed along the axis of the instrument. A parallel
plate capacitor sets up an electric field E which is oriented
perpendicular to a uniform magnetic field B. If the plates are
separated by 8 mm and the value of the magnetic field is 0.2 T,
what voltage between the plates will allow particles of speed to
pass straight through...
An unknown charged particle is fired into a velocity selector . The magnetic field in the...
An unknown charged particle is fired into a velocity selector
. The magnetic field in the velocity selector is 1.2 T. If we would
like to select for a speed of 400 m/s , what should the magnitude
of the electric field be?
An unknown charged particle is fired into a velocity selector. The magnetic field in the velocity selector is 1.2 T. If we would like to select for a speed of 400 m/s, what should the magnitude of...
a) Mark the forces acting on the charge particle when it is in the velocity selector...
a) Mark the forces acting on the charge particle when it is in
the velocity selector region and mention the cause for each force
in the space below.
b) What condition should be satisfied if you want the particle
to be not deflected in the velocity selector?
c) From the above condition obtain an expression for the
velocity that is selected.
d) If this particle enters perpendicular to the magnetic field
in the second chamber using the knowledge of circular...
Explain why a charged particle is moving in a circular path in a uniform
a) Explain why a charged particle is moving in a circular path in a uniform b) A particle of charge 3.2 x 10-19 C and velocity of 2 x 105 ms-1 enters a magnetic field uniform magnetic field of magnetic field strength, 0.2 T. If the particle moves in circular path of radius 4.0 cm, calculate the mass of the charged particle.
Problem 1a: Velocity Selector: Show that with the right ratio of electric to magnetic field strength...
Problem 1a: Velocity Selector: Show that with the right ratio of electric to magnetic field strength a particle of velocity v will proceed through both fields in a straight line at constant speed (hint: you will need an equation containing v. Also: what does the straight line at constant speed give you?). Assume that the angle of the velocity vector relative to the magnetic field vector is 90 degrees. (15 points) b: Show mathematically that the charge magnitude and sign...
Please answer quickly, will upvote immediately!
A charged particle moves through a velocity selector at a constant speed in a straight line. The electric field of the velocity selector is 3.56E+3 N/C, while the magnetic field is 0.332 T. When the electric field is turned off, the charged particle travels on a circular path whose radius is 4.58 cm. Calculate the charge-to-mass ratio of the particle. Submit Answer Tries 0/10
is a velocity selector that can be
used to measure the speed of a charged particle. A beam of
particles is directed along the axis of the instrument. A parallel
plate capacitor sets up an electric field E which is oriented
perpendicular to a uniform magnetic field B. If the plates are
separated by 8 mm and the value of the magnetic field is 0.2 T,
what voltage between the plates will allow particles of speed to
pass straight through...
An unknown charged particle is fired into a velocity selector
. The magnetic field in the velocity selector is 1.2 T. If we would
like to select for a speed of 400 m/s , what should the magnitude
of the electric field be?
An unknown charged particle is fired into a velocity selector. The magnetic field in the velocity selector is 1.2 T. If we would like to select for a speed of 400 m/s, what should the magnitude of...
a) Mark the forces acting on the charge particle when it is in
the velocity selector region and mention the cause for each force
in the space below.
b) What condition should be satisfied if you want the particle
to be not deflected in the velocity selector?
c) From the above condition obtain an expression for the
velocity that is selected.
d) If this particle enters perpendicular to the magnetic field
in the second chamber using the knowledge of circular...
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