For the long straight wire shown below, indicate the direction of the magnetic field at the point labeled P. P. O out of screen O into screen O to the right O to the left
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For the long straight wire shown below, indicate the direction of the magnetic field at the point labeled P.
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out of screen |
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into screen |
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to the right |
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to the left |
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- ANSWER ALL QUESTIONS BELOW FOR A THUMBS UPB: A Closer Look Now imagine that we zoom in to a small region of space located above the middle of the wire. The diagram below illustrates this along with the electric and magnetic field lines. Note that one field points in or out of the page and is represented with the circles. 1. Represent. Complete the diagram by: (a) labeling and colour coding the electric and magnetic field lines and (b) showing the direction of all the field lines and current O О О О 2. Reason. How do the directions of the electric and magnetic field lines compare in this region of space? О wire 3. Explain. A positive test charge is placed at rest in this region of space. In this investigation, we will ignore the effects of the magnetic field since they are relatively small. What will happen to the positive charge which is initially is at rest? Explain and draw vectors representing any forces. Below is a third diagram showing the same region of space as above. But for this example, we have switched the polarity…reference image in pdf
- Determine the magnetic field at a point P located a distance x from the corner of an infinitely long wire bent at a right angle, as shown above right. The wire carries a steady current I.Solenoids and electromagnets are widely used in power generation and distribution. A solenoid formed from a length of wire has 80 turns. The solenoid carries a constant current of 13 Aand the strength of the magnetic field produced is measured to be 3×10-3 T at its center. What is the length of the wire that forms the solenoid? Show your work.What is the magnitude of the induced current? The 10-cm-wide, zero-resistance slide wire shown in (Figure 1) is pushed toward the 1.5 N resistor at a steady speed of 0.40 m/s. The magnetic field strength is 0,60 T. Express your answer with the appropriate units. HA I= Value Units 16 Submit Request Answer Part D What is the direction of the induced current? O Clockwise. O Counterclockwise, Submit Request Answer Figure < 1 of 1 Part E Zero-resistance wires How much power is dissipated in the resistor? Express your answer with the appropriate units. HA ? Push P = Value Units Submit Request Answer
- Please answer both questions thank you!!!Two long wires carry 10 A currents in the directions shown in the figure (Figure 1). One wire is 20 cm above the other. 1. What is the magnitude of the magnetic field at a point halfway between them? Express your answer with the appropriate units. 2. What is the direction of that magnetic field? A. Downward and to the right, at an angle of 45∘ from both wires. B. Upward and to the left, at an angle of 45∘ from both wires. C. Upward and to the right, at an angle of 45∘ from both wires. D. Downward and to the left, at an angle of 45∘ from both wires.For each of the following diagrams, you will be shown the directions for two variables (v B or F) tor a positive charge moving in a uniform magnetic field and asked for the missing one using the right-hand rule. Remember that dots represent a vector pointed out of the screen and x's represent a vector pointed into the screen. a. What is the direction of the Force on this diagram? O A. right OB. left OD. down toward the bottom of the screen OC. up toward the top of the screen OE. out of the screen OF into the screen b. What is the direction of the Force for this diagram? O A. right O B. left OD. down toward the bottom of the screen OC up toward the top of the screen OE. out of the screen OF into the screen What is the direction of the motion for this diagram? C.