Particles 1, 2, and 3 are all charged particles moving in a uniform magnetic field directed out of the page. The paths shown are either quarter-circles or half-circles. What is the sign of the charge on particle 2? Select an answer and submit For keyboard 3.
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- Q8.2Both parts plz. Please indicate Fx, Fy, Fz seperated with commas like the question asks.Five particles follow the paths shown in the figure as they pass through a magnetic field. The direction of the field is indicated by either dots or crosses in the figure. What can you conclude about the charge of each particle?
- You have learned that a charge moving in an magnetic field can experience a magnetic force. Remarkably, anytime that a charged particle moves that particle produces its own magnetic field! The image below of magnetic compasses forming a circle around a current-carrying wire demonstrates the shape of the magnetic field. The magnetic field lines forms concentric circles around that wire. The strength of the field decreases with increasing distance away from the wire. If the current in the wire is 1.15A, what is the magnitude of the magnitude of the magnetic field (in ?μT, or micro-Tesla) a distance of 0.88m away from the wire?A student makes a short electromagnet by winding a wire 213 times around a non-conductive pipe with a radius of 0.0575 m. The coil is connected to a battery producing a current of 7.06 A in the wire. What is the magnitude of the magnetic dipole moment of this deviceA small rod magnet has a magnetic field at a distance from it as large as Hom B = 2nz3 Where z is the distance from the magnet on the axis connecting the north pole and south, m is the moment of magnetic dipole. Assuming electrons orbit protons like small rod magnets, determine the m magnetic dipole of an electron orbiting an atom.
- Please help me with the following questions and make sure your answer is 100% correct, pls and thank you. A beam of protons is accelerated through a potential difference of 0.745 kVkV and then enters a uniform magnetic field traveling perpendicular to the field. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of electron motion in a microwave oven. Part A. What magnitude of field is needed to bend these protons in a circular arc of diameter 1.75 m? Express your answer in teslas. Part B. What magnetic field would be needed to produce a path with the same diameter if the particles were electrons having the same speed as the protons? Express your answer in teslas.A wire has a current of 15 A going to the right. What is the B field and its direction 0.5 m below the wire? What is the force and direction on a proton traveling 150 m/s to the right at this point?Three positively charged point particles, each with identical mass and velocity, pass through an aperture and are subsequently deflected into circular paths by a uniform magnetic field that points into the page. Which of the following choices is the correct ranking for the amount of positive charge in each particle? B A B O a. gA < qB < 9C O b. gA < qc < qB O C. qB < 9C < qA O d. qc < 9B < qA O e. qB < qA < qC
- A particle moves in a clockwise (when viewed from above) circle in a downward pointing uniform magnetic field. What charge does the particle have? Positive, negative, zero, magnetic charge, or cannot be determinedFor the moment please disregard the moving charge off to the right. The diagram above shows segments of two long straight wires, carrying currents I_1 = 9.57 A and I_2 = 1.64 A respectively. The distance between the wires is 9.01 cm. What is the force on a 1.65-cm segment of wire #2 due to the magnetic field from wire #1? 2.88E-07 N 7.48E-07 N 1.04E-06 N 5.75E-07 NA proton travels clockwise in the plane of the page under the influence of a magnetic field of 3T a) If the particle has an energy of 10-15J, find the radius of the circle b) What is the direction of the field? c) A long wire carries a current of 10A. A closed loop, in the form of a rectangle with the dimensions in the figure carries a current of 4 A. The side of the loop nearest the wire is 1mm from the wire. Find the force on the loop.