A magnetic field has many properties similar to an electric field Theory: 1. Whe
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Question
A magnetic field has many properties similar to an electric field Theory: 1. When you bring two charged particles near each other, what happens? Does it matter whether you use+ or- charges? Which force is being applied? When you bring two magnets near each other, what happens? Does it matter whether you use the N or S poles? Which force is being applied? 2. 3. Compare what is happening in questions 1 and 2 Procedure & Analysis: ra un magnetized ferro magnetic object (like . paperclip) What happens? .Does it matter whether you use the N or S pole? .When did we see something similar for the electric field? Take a compass and determine which side of the needle points to geographic North 2. which points geographic South. Bring a magnet near the compass Which end of the bar magnet is the N side of the compass needle attracted to? . The compass needle is also magnet. Is the N side of compass needle a magnetic N pole or a S pole? The Earth is also a magnet. Is geographic North a magnetic N pole or S pole? .Is the N pole of a magnet named after the geographic pole that shares its polarity or the geographic pole it is attracted towards? Take an iron filing kit and turn it so that the filings are evenly distributed. Place a magnet on top of the kit. Wait a few seconds for the filings to line up with the magnetic field. Putting a white piece of paper under the kit may help you see it. 3. .Sketch the shape of the magnetic field. (Or take a good quality photo.) . When did we see an electric field with a similar shape? 4. Place two magnets end-to-end with opposite poles about 1 inch apart. Sketch the magnetic field, in particular the area in between the magnets . How would we an electric field with a similar shape? Place two magnets end-to-end with opposite poles about 1 inch apart. 5. Sketch the magnetic field, in particular the area in between the magnets . How would we an electric field with a similar shape? Place two magnets end-to-end with like poles about 1 inch apart. 6. . Sketch the magnetic field, in articular the area in between the magnets How would we get an electric field with a similar shape? On one side of the kit, place several N poles parallel and very close to one another On the other side of the paper, place several S poles parallel and close to one another. 7. .Sketch the magnetic field in the middle of the paper . When did we see an electric field with a similar shape? Conclusion: If you want to take an electric field and produce a magnetic field of the same shape, what do you do?Explanation / Answer
As per Chegg guidelines, we are supposed to do one question with max 4 subpart. Hence I am doing accordingly.
(1) If the two particles are same in nature (i.e. same charge), they will repel, otherwise, they attract. The force applied is electrostatic.
(2) When the facing poles are same i.e. JN-N or S-S then they will repel otherwise attract. The force applied is magnetostatic
(3) In both the cases, a similar entity will repel while different one will attract.
Procedure And analysis
(1) The ferromagnetic material gets magnetized.
(2) The nature magnetization depends on the type of pole i.e. N or S. If N pole is used then the magnetization will be in such a way that the facing section will have S pole so that both can attract each other.
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