QB2d. Calculate the EMF induced in the railway carriage wheel of radius R=840 mm by themagnetic field of the Earth. Consider that the magnetic field of the Earth makes an angle of 71.5deg with the horizontal surface of the railway track. Take the speed of the carriage to be v = = 158km h¹ and the value of the magnetic field of the Earth B = 10-5 T. Provide your answer inmicrovolts (10-6 V=1 μV): for example, if you calculated the value to be 0.000075 V, then enter 75as your answer. Enter your answer in the box below.

Explanation:The EMF (electromotive force) induced in a moving conductor like a railway carriage…

Answered: QB2d. Calculate the EMF induced in the…

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Similar questions

A straight conductor of length L moves with an acceleration A =0.1 ms-2 at right angles to a magnetic field of uniform strength B=10.2 T. Calculate L, considering that the e.m.f., ? = BLv, between the ends of the conductor increased from 0 to 5 V during the first 20 s after the beginning of motion.
A 0.220–A current is charging a capacitor that has circular plates 10.1 cm in radius. The plate separation is 4.00 mm. (a) What is the time rate of increase of electric field between the plates? V/(m·s)(b) What is the magnetic field between the plates 5.00 cm from the center? T
A square loop with area of A= 0.25m^2 has a perpendicular magnetic field passing through. If the magnetic field increases from B=2.0T to B=4.0T in 0.2 seconds, what is the induced e.m.f?
Given: B = 5 * 10-5 T ẑ; σ = 4 (Ohm-meters)-1 (conductivity) a) Assume that seawater is moving at a constant velocity v = v0 ŷ and that the Earth’s magnetic field is along the ẑ-direction. Calculate the electric current density J produced by the magnetic force. Hint: first compute the force per unit charge, F/q, and then use the relationship J = σ(F/q). b) Derive the equation of motion of a cylindrical differential volume element of base area δA and height δh parallelto the direction of J. Assume that seawater has a known volumetric mass density ρ. Show that this equation implies that the velocity satisfies the following differential equation:dvy/dt = vy/τwhere τ is a constant that you should write in terms of B, σ, and ρ.
An automobile with a radio antenna 1.3 m long travels at 108.0 km/h in a location where the Earth's horizontal magnetic field is 3.0 ✕ 10−5 T. What is the maximum possible emf (in V) induced in the antenna due to this motion?
Consider a conductive bar sliding on a pair of parallel conducting rails with a uniform perpendicular magnetic field passing through. Suppose the induced e.m.f. E=1.0V when the bar is sliding with speed of v=1 m/s. What would be the induced e.m.f. if you double the speed?
Consider the electromagnetic armature in the magnetic field as shown: μi Z If μ = 50.0 Joules per Tesla (J/T) and B= 20 Tesla (a) What is the induced torque, in N.m, if the angle = 35°? (b) What if the angle = 15°? (c) What is the direction of the torque? B Ф

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