. An electron is moving (along x-axis) through a 50 T magnetic field (along y-axis) at a perpendicular velocity of 20000 m/s. Find the magnitude and direction of the magnetic force experienced by the electron.
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. An electron is moving (along x-axis) through a 50 T magnetic field (along y-axis) at...
An electron is moving (along x-axis) through a 50 T magnetic field (along y-axis) at a perpendicular velocity of 20000 m/s. Find the magnitude and direction of the magnetic force experienced by the electron. which law is this using and can you break it down step by step im still not understanding
An electron is moving (along x-axis) through a 77 T magnetic field (along y-axis) at a perpendicular velocity of 20000 m/s. Find the magnitude and direction of the magnetic force experienced by the electron. (Here is a picture not sure if you need it. if not disregard.) I P В.
5. An electron carrying charge -9 (where q=1.602e-19 C) is moving along the x axis in the +x direction with a velocity ū(x, y, z) = 5 x 107 cm/s. a. We want to make the electron to curve to the right and eventually go in a circle clockwise in the xy plane by applying a magnetic field. To achieve that, the magnetic field should exert a force on the electron that is perpendicular to its direction of motion. Which...
At time t_1 an electron is sent along the positive direction of an x axis, through both an electric field E and a magnetic field B, with E directed parallel to the y axis. The figure gives the y component F_net, y of the net force on the electron due to the two fields, as a function of the electron's speed v at time t_1. The scale of the velocity axis is set by v_s = 95 m/s. The x...
An electron moving at 4.5x106 m/s through a magnetic field and experiences a magnetic force of magnitude 8.4x10-13 N. If the angle between the proton's velocity and the field is 27°, find the magnitude magnetic field (in T)? (Charge and mass of an electron are 1.6x10-19 C, and 9.1x10-31 kg) 2.57 3.27 1.31 0.94
An electron is shot through a varying electrical field. Initially the electron is moving in the x-direction with a velocity V_x = 100 m/s.The electron enters the field when it passes the origin. The field varies with time, causing an accele(ration of the electron that varies in time: a(t) = (-20 m/s^2 - 10 m/s^3*t) Already calculated information: V_y = -20t - 5t^2 (velocity - y-axis) r_x = 100*t (position - x-axis) r_y = -10t^2 - 5/3*t^3 (position - y-axis)...
An electron moving in the direction of the +x-axis enters a magnetic field. If the electron experiences a magnetic deflection in the -y direction, the direction of the magnetic field in this region points in the direction of the -y-axis. -z-axis. +z-axis. +y-axis. -x-axis.
An electron moves through a region with a uniform magnetic field of unknown magnitude directed in the +y direction At the instant that the electron is moving in the +z direction with a velocity of 2.86e6 m/s, it experiences a magnetic force of 1.24 pN in the +x direction. Calculate the magnitude of the magnetic field
4. An electron is moving in a uniform magnetic field of 0.25 T; its velocity components parallel and perpendicular to the field are both equal to 3.1-100 m/s. (a) What is the radius of the electron's spiral path? (b) How far does it move along the field direction in the time it takes to complete a full orbit about the field direction?
1. Which of the following charged particles moving in a static uniform magnetic field feels no force? A. an electron with velocity opposite the direction of the magnetic field B. an electron with velocity perpendicular to the magnetic field C. a proton with velocity perpendicular to the magnetic field D. a proton with velocity making a 45 degree angle with the magnetic field 2. An electron enters a region where a uniform magnetic field points in the +z direction. If...