Problem 22.22 The velocity selector in the figure(Figure 1) is designed to allow charged particles with...
The velocity selector in in a mass spectrometer has a uniform 0.0506 T magnetic field oriented in the negative y direction and a uniform 294 kV/m electric field oriented in the positive z direction. What is the kinetic energy (in electron volts) of the electron that will pass through this velocity selector in the +x direction undeflected?
The velocity selector in in a mass spectrometer has a uniform 0.0642 T magnetic field oriented in the negative y direction and a uniform 238 kV/m electric field oriented in the positive z direction. What is the kinetic energy (in electron volts) of the electron that will pass through this velocity selector in the +x direction undeflected ?
In the Bainbridge mass spectrometer (Figure 1) , the
magnetic-field magnitude in the velocity selector is
0.510 T , and ions having a speed of 1.82×106m/s pass through
undeflected.
A) What is the electric-field magnitude in the velocity
selector?
b) If the separation of the plates
is 5.20mm, what is the potential difference between the plates?
Figure 1of 1 ㄧㄨㄨㄨ
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 ×...
The figure (Figure 1) shows a portion of a silver ribbon with 21 = 11.0 mm and y1 = 0.22 mm , carrying a current of 110 A in the to-direction. The ribbon lies in a uniform magnetic field, in the y-direction, with magnitude 0.90 T.Apply the simplified model of the Hall effect. Figure 1 of 1 Part A If there are 5.85x1028 free electrons per cubic meter, find the magnitude of the drift velocity of the electrons in the...
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...
An electron moves at speed 5.6 x 106 m/s toward the velocity selector shown in (Figure 1). A 0.12-T magnetic field points into the paper. Part A Determine the magnitude of the magnetic force that the magnetic field exerts on the electron. Part B Determine the direction of the magnetic force that the magnetic field exerts on the electron. upward downward Part C What E field magnitude is required so that the electric force exerted on the electron is equal in magnitude and opposite in direction to the...
Problem 1 chemists to determine the composition of a sample. Let's explore one type of mass spectrometer, which uses electric and magnetic fields. For each step below, sketch a diagram to help you with the analysis Mass spectrometers, which separate ions based on mass, are often used by a. In Step 1 of mass spectrometry, an accelerator releases a charged particle from rest near one plate of a charged parallel-plate capacitor, so that the particle accelerates toward the other plate...
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."...
Having trouble answering these. second photo pertains
for question 3.
l. A wire carries a, current of 10.0 A in a direction tha makes an angie of 30.0 with the direction of a magnetic field of strength 0.300 T. Find the magnetic force on 5.00-m length of the wirc. A current of 17.0 mA is maintained in a single circular loop with a circumference of 2.00 m. A magnetic ficld of 0.800 T is directed parallel to the piane of...