College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- Part A A long, straight wire carries a current of 5.20 A. An electron is traveling in the vicinity of the wire. At the instant when the electron is 4.40 cm from the wire and traveling with a speed of 5.90×104 m/s directly toward the wire, what is the magnitude of the force that the magnetic field of the current exerts on the electron? ΑΣφ F = N Submit Request Answer Part B What is the direction (relative to the direction of the current) of this force? opposite to the current in the same direction as the current O perpendicular to the current Submit Request Answer ооarrow_forwardTwo long thin parallel wires 13.0 cm apart carry 35 A currents in the same direction. Figure 13.0 cm- • 6.0 cm-- 10.0 cm- ▼ ▼ Part A Determine the magnitude of the magnetic field vector at a point 10.0 cm from one wire and 6.0 cm from the other (see the figure(Figure 1)). Express your answer using two significant figures. B= Submit Part B 0= |Π| ΑΣΦ Submit Request Answer Determine the direction of the magnetic field vector at a point 10.0 cm from one wire and 6.0 cm from the other. Express your answer using two significant figures. ΠΫΠΙ ΑΣΦ Provide Feedback Request Answer ? PANC T ? 0 above the x-axisarrow_forwardx aix When the particles a, b, c and d are released with the same charge q, they move in the plane of the paper. with the same speed v in different directions in a region of constant magnetic field B, as shown in the figure, which of the following correctly describes the magnitude and direction of the magnetic force acting on a particle? Choise a) The magnetic force acting on a has a direction towards Z and has a magnitude of qvB. 6) The magnetic force acting on b is directed away from point Z and has a magnitude of qvB. c) The magnetic force acting on c has a direction towards Z and has a magnitude of qvB. The magnetic force acting on d has a direction towards Z and has a magnitude of qvB.arrow_forward
- Question 5arrow_forwardA proton moves in a helical path at speed v = 6.10 × 107 m/s high above the atmosphere, where Earth’s magnetic field has magnitude B = 1.30 × 10−6 T. The proton’s velocity makes an angle of 25.0° with the magnetic field. The mass of the proton is 1.673×10−27 kg. Find the radius of the helix. *NEED ANSWER IN km*arrow_forwardNa+ B A horizontally moving positive sodium ion enters a magnetic field that points up. The magnetic force pushes the charge out of its original path. A. Into the page B. Out the page OC. To the left of the page D. There is not enough information to answerarrow_forward
- Review I Constants What is the largest possible magnitude of the acceleration of the electron due to the magnetic field? An electron moves at 2.20 x 10° m/s through a region in which there is a magnetic field of unspecified direction and magnitude 7.00 x 10-2 T. Express your answer with the appropriate units. HẢ ? Value Units a = Submit Request Answer Part B What is the smallest possible magnitude of the acceleration of the electron due to the magnetic field? Express your answer with the appropriate units. HẢ Value Units a = Submit Request Answer Part C If the actual acceleration of the electron is one-fourth of the largest magnitude in part A, what is the angle between the electron velocity and the magnetic field? Express your answer in degrees to three significant figures.arrow_forwardWires 1 and 2 carry the same current. The magnitude of the magnetic field created by current 1 at point P is B =30 mT. P Part A Determine the magnitude of the net magnetic field at point P mT Bnet = Submit Request Answer Next>arrow_forward
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