A charge is moving through a velocity selector and is moving at a speed which is...
A charge is moving through a velocity selector and is moving at a speed which is a factor of 4.2 times larger than the speed not to be deflected. At this speed, the magnitude of the magnetic force acting on it is 53 Newtons. What is the electric force acting on the charge in Newtons? Hint: think what is true about the magnetic and electric force when the charge is not deflected and how the relationship between magnetic force and speed.
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A charge is moving through a velocity selector and is moving at
a speed which is...
A charge is moving through a velocity selector and is moving at a speed which is...
A charge is moving through a velocity selector and is moving at a speed which is a factor of 5.1 times larger than the speed not to be deflected. At this speed, the magnitude of the magnetic force acting on it is 52 Newtons. What is the electric force acting on the charge in Newtons? Hint: think what is true about the magnetic and electric force when the charge is not deflected and how the relationship between magnetic force and...
Question 10 10.5 pts A charge is moving through a velocity selector and is moving at...
Question 10 10.5 pts A charge is moving through a velocity selector and is moving at a speed which is a factor of 5.9 times larger than the speed not to be deflected. At this speed, the magnitude of the magnetic force acting on it is 46 Newtons. What is the electric force acting on the charge in Newtons? Hint: think what is true about the magnetic and electric force when the charge is not deflected and how the relationship...
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...
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...
Velocity Selector-multiple choice
The Velocity SelectorIn experiments where all the charged particles in a beam are required to have the same velocity (for example, when entering a mass spectrometer), scientists use a velocity selector. A velocity selector has a region of uniform electric and magnetic fields that are perpendicular to each other and perpendicular to the motion of the charged particles. Both the electric and magnetic fields exert a force on the charged particles. If a particle has precisely the right velocity, the...
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...
PROBLEM 1 – A velocity selector (Wien Filter) has an electric field of magnitude 2470 N/C,...
PROBLEM 1 – A velocity selector (Wien Filter) has an electric field of magnitude 2470 N/C, directed vertically upward, and a horizontal magnetic field that is directed to the south. Charged particles, traveling east at a speed of 6.50 × 103 m/s, enter the selector and are able to pass through undeflected. When a different charged particle with an electric charge of +4.00 × 10-12 C enters the selector traveling east, the net force acting on it is 1.90 ×...
1. A speed selector is a device that uses both electric and magnetic fields to select...
1. A speed selector is a device that uses both electric and magnetic fields to select particles with only a certain value of velocity. (a) If a positively charged particle goes through a region of space where the electric field points directly upwards and the magnetic field points out of the page, draw a free body diagram indicating the electric and magnetic forces this particle feels. (b) If the particle can go through this region without being deflected (that is,...
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.
A velocity selector has its electric field directed vertically downward, with magnitude 130 N/C . Find...
A velocity selector has its electric field directed vertically downward, with magnitude 130 N/C . Find the magnitude of the horizontal magnetic field required to select charged particles moving at 340 m/s . This velocity selector is being used on protons. Compute explicitly the magnitude of the electric force. Compute explicitly the magnitude of the magnetic force. (I have entered the answer with Newtons as the units and it is saying "Enter your answer using dimensions of magnetic flux density."...
Question 10 10.5 pts A charge is moving through a velocity selector and is moving at a speed which is a factor of 5.9 times larger than the speed not to be deflected. At this speed, the magnitude of the magnetic force acting on it is 46 Newtons. What is the electric force acting on the charge in Newtons? Hint: think what is true about the magnetic and electric force when the charge is not deflected and how the relationship...
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