College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- Answer must be in standard form scientific notation with SI units that do not have prefixes except for kg. Provide the answer with the correct amount of significant figures. Thank you so much I greatly appreciate itarrow_forwardAn electron moves with velocity v = (7.2i - 5.6j) x 10 m/s in a magnetic field B = (-0.84i+0.59j) T. Part A Determine the x-component of the force on the electron. Express your answer using two significant figures. F = Submit Request Answer Part B Determine the y-component of the force on the electron. Express your answer using two significant figures.arrow_forwardIn the figure the current in the long, straight wire is I1 = 6.50 A, and the wire lies in the plane of the rectangular loop, which carries 12.6 A. The dimensions shown are c = 0.100 m, a = 0.150 m, and ℓ = 0.450 m. Find the magnitude and direction of the net force exerted by the magnetic field due to the straight wire on the loop.arrow_forward
- The magnetic force dFg on a infinitesimal segment of current I is dFs = I dEx B Where di is the displacement vector of the infinitesimal current segment. The total magnetic force on a finite current segment is F = 1J (dL x B) 1. If the magnetic field is uniform in space the magnetic force on current simplifies to FB = {(x5). What is vector in this expression? Choose one. is the length of the current segment is the vector from the point where the current enters the uniform field to the point where the current leaves the uniform field. a. What is the magnetic force on the portions of the wire to the left of the dashed line? • is the current. 2. The magnetic field is zero to the left of the dashed line. The magnetic field to the right of the dashed line is uniform outwards. A current carrying wire goes through the region as shown. b. What is the magnetic force on the bottom wire segment? Write answer in component vector form. c. What is the magnetic force on the slanted wire segment?…arrow_forwardA magnetic field has a magnitude of 0.0016 T, and an electric field has a magnitude of 6.4 x 103 N/C. Both fields point in the same direction. A positive 1.7-µC charge moves at a speed of 4.2 x 106 m/s in a direction that is perpendicular to both fields. Determine the magnitude of the net force that acts on the charge. Number .01142 B Units N V 90° Earrow_forwardNeeds Complete typed solution with 100 % accuracy.arrow_forward
- Q1/ A proton moving at 4.00 × 10“ m/s through a magnetic field of magnitude 1.70 T experiences a magnetic force of magnitude 8.20 × 10 N. What is the angle between the proton's velocity and the field?arrow_forwardA charged particle moving through a magnetic field at right angles to the field with a speed of 31.7 m/s experiences a magnetic force of 1.98 10-4 N. Determine the magnetic force on an identical particle when it travels through the same magnetic field with a speed of 4.94 m/s at an angle of 28.2° relative to the magnetic field. Narrow_forwardA particle with charge q and and speed venters a region of magnetic field B1 and is deflected from its path into a region with field B2. It enters the second region moving vertically and exits horizontally. a) Draw a sketch of the path of the particle. b)The particle exits the second region at a height d, measured from the interface of the two regions. What is the mass of the particle?arrow_forward
- The force on a particle due to a magnetic field is proportional to the charge of the particle and to its speed. In addition, the force has its maximum value when the velocity of the particle is at right angles to the magnetic field, and is zero when the velocity and magnetic field are parallel to one another. True Falsearrow_forwardPlease Asaparrow_forwardPlease refer to the image:arrow_forward
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