A particle of charge Q is launched at speed Vo to the right at a distance d directly below an infinitely long line carrying steady current I to the right. Find the magnetic force on the particle.
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Q: axis). At a particular instant an electron at location m has velocity m/s. Zout
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A: Ans:- Image-1
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Q: A long straight wire suspended in the air carries a conventional current of 6.3 amperes in the -x…
A: Step 1:Step 2:Step 3:Step 4:
Q: A long straight wire (length =180 cm) is lying flat on a table with a current of 5.8 A toward the…
A: Given: The length of the wire is L = 180 cm = 1.80 m. The current is I = 5.8 A. The charge q = 15…
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- A proton moves through a uniform magnetic field given by B. At time t1, the proton has a velocity given by v and the magnetic force on the proton is FB. (a) At that instant, what is vx? (b) At that instant, what is vy?A particle with charge -3.00 C initially moves at v = 1.00 i ^+ 7.00 j ^ m/s. If it encounters a magnetic field B = 10.00 k ^ T, find the force on theparticle.Due Wednesday 7/12 Problem 1. An infinitely long straight wire carries a current / 1.0 A that flows in the positive à direction. The external magnetic field at position along the wire is given by B(r) Boe / where Bo 110 mT and a 0.15 m. What is the force F on the wire due to this external magnetic field?
- an ekectron is moving at velcotiy, v= -350 m/s toward a long straight wire with current i=0.45 A. at the instant shown at point A, the electrons distance from the wire is d=2.50cm. find: a. the magnitude and b. the direction of the magnetic force on the electron due to the electric currentA long straight wire suspended in the air carries a conventional current of 7 amperes in the -x direction as shown (the wire runs along the x-axis). At a particular instant an electron at location m has velocity m/s. z out (a) What is the magnetic field due to the wire at the location of the electron? B = tesla (b) What is the magnetic force on the electron due to the current in the wire? F= N (c) If the moving particle were a proton instead of an electron, what would the magnetic force on the proton be? F =An electron and a proton are both initially moving with same speed and in the same direction at 90 degrees to the same uniform magnetic field. They experience magnetic force, which are initially: