A) Using Newton's second law, write equations for ax and ay, where a⃗ =axi^+ayj^ is the acceleration of the particle. Express your answer in terms of the variables q, B, vx, vy, and m. Enter your answers separated by a comma.
B) Differentiate the second of these equations with respect to time. Then substitute your expression for ax=dvx/dt to determine an equation for dv2y/dt2 in terms of vy. Express your answer in terms of the variables q, B, vy, and m.
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Homework Answers
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A) Using Newton's second law, write equations for ax
and ay, where a⃗ =axi^+ayj^ is the...
<Chapter 27 Problem 27.74 9 of 9 > A Review | Constants Part C A particle...
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A particle with charge 7.76 x 10-8 C is moving in a region where there is...
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Force on Moving Charges in a Magnetic Field
Magnets exert forces on other magnets even though they are separated by some distance. Usually the force on a magnet (or piece of magnetized matter) is pictured asthe interaction of that magnet with the magnetic field at its location (the field being generated by other magnets or currents). More fundamentally, theforce arises from the interaction of individual moving charges within a magnet with the local magnetic field. This force is written ,where is the force, is the individual charge (which...
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<Chapter 27 Problem 27.74 9 of 9 > A Review | Constants Part C A particle with charge q and mass m is dropped at time t = 0 from rest at its origin in a region of constant magnetic field B that points horizontally. What happens? To answer, construct a Cartesian coordinate system with the y-axis pointing downward and the z-axis pointing in the direction of the magnetic field. At time t o the particle has velocity v =...
A particle with charge 7.76 x 10-8 C is moving in a region where there is a uniform 0.650 T magnetic field in the +x-direction. At a particular instant, the velocity of the particle has components vz = -1.68 x 104 m/s, Vy = -3.11 x 104 m/s, and Vz 6.35 x 104 m/s. Part A What is the x-component of the force on the particle at this time? Express your answer with the appropriate units. μΑ ? F =...
Magnets exert forces on other magnets even though they are separated by some distance. Usually the force on a magnet (or piece of magnetized matter) is pictured asthe interaction of that magnet with the magnetic field at its location (the field being generated by other magnets or currents). More fundamentally, theforce arises from the interaction of individual moving charges within a magnet with the local magnetic field. This force is written ,where is the force, is the individual charge (which...
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A positive charge q moves along the positive x-axis in a region of space where a magnetic field points along the negative :- axis and an electric field points 19° below the negative x-axis (in the xy-plane) a. Draw a free body diagram indicating all forces acting on the particle. (Neglect gravity) b. What is the magnitude of the Lorentz force on the particle? c. What is the direction of the Lorentz force? Give your answer in degrees and indicate...
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