A positively charged particle is moving with a constant velocity V directed to the left through a region of a uniform magnetic field B directed out of the page as shown in the figure. In which direction must an electric field be applied to keep the particle moving along a straight line? ----
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- In 1962 measurements of the magnetic field of a large tornado were made at the Geophysical Observatory in Tulsa, Oklahoma. If the magnitude of the tornado's field was B = 18.00 nT pointing north when the tornado was 8.60 km east of the observatory, what current was carried up or down the funnel of the tornado? Model the vortex as a long, straight wire carrying a current. A (conventional current) flowing down the tornado.1.7 x 10-27 kg and a charge 3.0 x 10 m/s in the direction illustrated by a red arrow in the drawing above. The particle enters a region with a uniform magnetic field of magnitude B = 0.1 T (direction is given as a black arrow in the drawing). An angle between velocity and A positively charged particle with a mass m = e = 1.6 x 101 C moves with a speed v = %3D magnetic field vectors is 30 degrees. (a) (E. motion in a plane transverse to B. Show that the radius of this circle is R = Part of the particle's trajectory in this region will be circular 0.16 m. (b) complete revolution around the circle is T = 6.7 x 107 s. Show that the time it takes the proton to execute one (c) Sketch the three-dimensional trajectory of the particle. How far will the particle move in the direction of B in the time T = 6.7 x 10 s?A proton moves perpendicular to a uniform magnetic field B at a speed of 2.10 x 10' m/s and experiences an acceleration of 1.90 x 1013 m/s in the positive x-direction when its velocity is in the positive z-direction. Determine the magnitude and direction of the field. magnitude direction ---Select--- v
- A proton moves perpendicular to a uniform magnetic field B at a speed of 1.90 x 10’ m/s and experiences an acceleration of 1.60 × 1013 m/s in the positive x direction when its velocity is in the positive z direction. Determine the magnitude and direction of the field. magnitude direction |---Select--- ♥VA particle of mass m=3.1×10−5kg and charge q=43μC moves with a velocity v⃗ =−2.1×104ms−1 i^ along the x axis. a) Find the magnitude of magnetic field created by this charged particle at a distance d=37cm from the x axis. Draw a schematic diagram. b) Now, if the charged particle moves in an uniform external magnetic field, B⃗ =−3.8T k^ , then calculate the magnetic force experienced by the charged particle in unit vector notation. x component of the magnetic force y component of the magnetic force z component of the magnetic force c) What will be the shape of the path of the charged particle moving in the uniform external magnetic field. Draw a schematic diagram and calculate a geometric quantity that can help you explain the path. d) Along with the external magnetic field, if we now apply an external electric field on the charged particle in a particular direction - the particle moves in a stright line. Explain why. And calculate the external electric field in unit vector notation.…A proton is initially moving west at a speed of 1.07 x 106 m/s in a uniform magnetic field of magnitude 0.290 T directed vertically upward. Describe in detail the proton's trajectory, including its shape and orientation. the radius of the path the proton's trajectory
- Problem 3: Charged particles enter magnetic fields shown in the figures below. Describe in words or sketch a clear explanation of: a) the force on the charged particles after they enter these magnetic fields, and b) the path these particles follow after they enter their respective magnetic fields. (а) (b) x x x Xta XA proton is initially moving west at a speed of 1.05 x 106 m/s in a uniform magnetic field of magnitude 0.295 T directed vertically upward. Describe in detail the proton's trajectory, including its shape and orientation. the radius of the path the proton's trajectory ---Select---A proton is initially moving west at a speed of 1.01 106 m/s in a uniform magnetic field of magnitude 0.299 T directed vertically upward. Describe in detail the proton's trajectory, including its shape and orientation. the radius of the path the proton's trajectory
- A wire of mass 10 grams and length 50 cm carries a Southward current of 2A while resting on a horizontal table on Earth. a) If a vertically downward uniform magnetic field of 0.2 T is applied, determine the direction and magnitude of the magnetic force on the wire. b) Determine the acceleration of the wire if its coefficient of kinetic friction with the table is 0.4. c) Determine the direction and magnitude of the smallest uniform magnetic field required to levitate the wire.Consider a wire segment carrying a constant current of 3.0 A as shown on the attached figure. The arc portion of the segment is a 30◦ portion of a circle, the circle has a radius of 0.60 m. Determine the magnitude and direction of the magnetic field generated by the current at a point P at the center of the circle.