Refer to the picture for the magnetic field present in vacuum The magnetic field present in vacuum is given as in the figure with a unit of Tesla. Determine the amount of flux passing through a hemisphere of radius 5m with its base lying on the plane x=2m in the +x direction
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Refer to the picture for the magnetic field present in vacuum
The magnetic field present in vacuum is given as in the figure with a unit of Tesla. Determine the amount of flux passing through a hemisphere of radius 5m with its base lying on the plane x=2m in the +x direction
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- Find the direction of the magnetic field at each of the indicated points. What is the direction of the magnetic field Bc at Point C? O Bc is out of the page. O Bc is into the page. O Bc is neither out of nor into the page and Bc + 0. O Bc = 0. Figure 1 of 2 Part D What is the direction of the magnetic field Bp at Point D? A O Bp is out of the page. O Bp is into the page. O Bp is neither out of nor into the page and BD # 0. O BD = 0QUESTION 1 A particle with a charge of 5.60 is traveling with a velocity of 3000 m/x in the direction when it enfers a region of space with an electric field and a magnetic held. The electric field has a magnitude of 240 N/C and points in a direction that is 25 above the +x-axis, the magnetic field has a magnitude of +1.87 and points out of the page See the attached figure Find the magnitude of the net force acting on this particle when it enters this region of space This is part 1 of 2 for this problem 1 Bo 100 tw QUESTION 2 For the particle in problem 1. find the direction of the net force acting on the particle when it enters the region of space. Your answer needs to be the angle measured from the +y-axis. This is part 2 of 2 for this problemConsider the following arrangement in the Figure: a) Calculate the magnitude of the magnetic field at point P of the figure in terms of R, I₁, I₂. Express your answer in terms of the variables I1, I2, R, and magnetic constant po. b) What does your expression give when I1=I₂? 2
- -Calculate the magnetic field created by these two current carrying wires at the point P -Draw the magnetic field vectors at the point P on the diagram. Include the B vector for each wire and the resultant vector. The diagram shows the end-on view of two wires. teh first carries a current of I1=2.0A directed into the page and the second carries a curent of I2=5.0 A directed into the page.In Figure 3 a circular loop of wire of radius R is initially located in the plane of the page while a uniform Magnetic field of magnitude 5 T is coming out the page in the 2 = (0,0,1) direction (represented by the "x"'s). At time t = 0 the loop begins to rotate in uniform circular motion such that the top begins moving out of the page and the bottom moves into the page with a frequency of 5 seconds (i.e. the loop has the same orientation as that at t=0). For arbitrary time t > 0 I. II. III. IV. y Determine the unit normal of the area of the loop, ñ, as a function of time. Determine the vector describing the area of the loop, A. Determine the magnetic flux moving through the loop as a function of time. If current is allowed to move through the loop, determine the induced EMF in the conducting loop and the associated induced Electric field (make sure to explain the direction of the Electric field.) X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X…How to solve this question
- Please explain step by stepelectricity and magnetic physicsAn electron moves at 2.70 × 106 m/s through a region in which there is a magnetic field of unspecified direction and magnitude 7.00 × 10-² T. Part A What is the largest possible magnitude of the acceleration of the electron due to the magnetic field? Express your answer with the appropriate units. a = 0 xa Submit HÅ Xb Value 016 X.10n Units X Previous Answers Request Answer ?